MAGNDATA - Collection of Magnetic Structures

MAGNDATA

Collection of Magnetic Structures

MAGNDATA: Advanced search & Statistics

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Nonzero tensors	Irreducible representations
( AND OR ) AND OR	Number of irreps Multidimensional full irreps? Multidimensional small irreps? Primary irreps with: Irrep general or special direction?	> 1 primary irreps? Secondary irreps allowed? Secondary irreps present? "Secondary irreps" mentioned in comments?

Information table (2070 entries found)

N	Entry	Structure	Propagation vector(s)	Parent space group	Transformation from parent	Magnetic (super)space group	Magnetic point group	Reference
1	0.1 LaMnO₃		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pn'ma' (62.448) (standard)	m'm'm (8.4.27)	“Moussa,, F.”, Hennion, M., Rodriguez-Carvajal, J., Moudden, H., Pinsard, L., Revcolevschi, A et al., PHYSICAL REVIEW B (1995) 54 15149 - 15155 DOI: 10.1103/PhysRevB.54.15149
2	0.2 Cd₂Os₂O₇		0,0,0	Fd-3m (227) (standard)	(a,b,c;0,0,0)	Fd-3m' (227.131) (standard)	m-3m' (32.4.121)	Yamaura, J., K. Ohgushi, H. Ohsumi, T. Hasegawa, I. Yamauchi, K. Sugimoto, S. Takeshita, A. Tokuda, M. Takata, M. Udagawa, M. Takigawa, H. Harima, T. Arima, Z. Hiroi et al., PHYSICAL REVIEW LETTERS (2012) 108 247205 DOI: 10.1103/PhysRevLett.108.247205
3	0.3 Ca₃LiOsO₆		0,0,0	R-3c (167) (standard)	(a,b,c;0,0,0)	C2'/c' (15.89) (-a/3-2b/3-2c/3,-a,a/3+2b/3-c/3;0,1/2,0)	2'/m' (5.5.16)	S. Calder, M. D. Lumsden, V. O. Garlea, J. W. Kim, Y. G. Shi, H. L. Feng, K. Yamaura, A. D. Christianson et al., PHYSICAL REVIEW B (2012) 86 054403 DOI: 10.1103/PhysRevB.86.054403
4	0.4 NiCr₂O₄		0,0,0	I4₁/amd (141) (standard)	(a,b,c;0,0,0)	Fd'd'd (70.530) (-a+b,c,a+b;1/2,1,1/2)	m'm'm (8.4.27)	K. Tomiyasu, I. Kagomiya et al., J. Phys. Soc Jpn (2004) 73 2539 - 2542 DOI: 10.1143/JPSJ.73.2539
5	0.5 Cr₂S₃		0,0,0	R-3 (148) (standard)	(a,b,c;0,0,0)	P-1 (2.4) (a,-1/3a+1/3b+1/3c,c;0,0,0)	-1 (2.1.3)	E. Bertaut, J. Cohen, B. Lambert-Andron and P. Mollard, Journal de Physique (1968) 29 813-824. DOI: 10.1051/jphys:01968002908-9081300
6	0.6 YMnO₃		0,0,0	P6₃cm (185) (standard)	(a,b,c;0,0,0)	P6₃cm (185.197) (standard)	6mm (25.1.91)	A. Munoz, J.A. Alonso, M.J. Martinez-Lope, M.T. Casais, J.L. Martinez and M.T. Fernandez-Diaz, Physical Review B (2000) 62 9498-9510. DOI: 10.1103/physrevb.62.9498
7	0.7 ScMnO₃		0,0,0	P6₃cm (185) (standard)	(a,b,c;0,0,0)	P6₃c'm' (185.201) (standard)	6m'm' (25.4.94)	A. Munoz, J.A. Alonso, M.J. Martinez-Lope, M.T. Casais, J.L. Martinez and M.T. Fernandez-Diaz, Physical Review B (2000) 62 9498-9510. DOI: 10.1103/physrevb.62.9498
8	0.8 ScMnO₃		0,0,0	P6₃cm (185) (standard)	(a,b,c;0,0,0)	P6₃ (173.129) (standard)	6 (21.1.76)	A. Munoz, J.A. Alonso, M.J. Martinez-Lope, M.T. Casais, J.L. Martinez and M.T. Fernandez-Diaz, Physical Review B (2000) 62 9498-9510. DOI: 10.1103/physrevb.62.9498
9	0.9 GdB₄		0,0,0	P4/mbm (127) (standard)	(a,b,c;0,0,0)	P4/m'b'm' (127.395) (standard)	4/m'm'm' (15.7.59)	J.A. Blanco, P.J. Brown, A. Stunault, K. Katsumata, F. Iga and S. Michimura, Physical Review B (2006) 73. DOI: 10.1103/physrevb.73.212411
10	0.10 DyFeO₃		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	P2₁2₁2₁ (19.25) (a,b,c;0,0,1/4)	222 (6.1.17)	Y. Tokunaga, S. Iguchi, T. Arima and Y. Tokura, Physical Review Letters (2008) 101. DOI: 10.1103/physrevlett.101.097205
11	0.11 DyFeO₃		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pn'a'2₁ (33.148) (a,c,-b;0,0,0)	m'm'2 (7.4.23)	Y. Tokunaga, S. Iguchi, T. Arima and Y. Tokura, Physical Review Letters (2008) 101. DOI: 10.1103/physrevlett.101.097205
12	0.12 U₃Ru₄Al₁₂		0,0,0	P6₃/mmc (194) (standard)	(a,b,c;0,0,0)	Cmcm' (63.461) (b,-2a-b,c;0,0,0)	m'mm (8.3.26)	R. Troc, M. Pasturel, O. Tougait, A.P. Sazonov, A. Gukasov, C. Sulkowski and H. Noël, Physical Review B (2012) 85. DOI: 10.1103/physrevb.85.064412
13	0.13 Ca₃Co_2-_xMn_xO₆		0,0,0	R-3c (167) (standard)	(a,b,c;0,0,0)	R3c (161.69) (standard)	3m (19.1.68)	Y.J. Choi, H.T. Yi, S. Lee, Q. Huang, V. Kiryukhin and S.-W. Cheong, Physical Review Letters (2008) 100. DOI: 10.1103/physrevlett.100.047601
14	0.14 Gd₅Ge₄		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pnm'a (62.444) (standard)	m'mm (8.3.26)	L. Tan, A. Kreyssig, J.W. Kim, A.I. Goldman, R.J. McQueeney, D. Wermeille, B. Sieve, T.A. Lograsso, D.L. Schlagel, S.L. Budko, V.K. Pecharsky and K.A. Gschneidner, Physical Review B (2005) 71. DOI: 10.1103/physrevb.71.214408
15	0.15 MnF₂		0,0,0	P4₂/mnm (136) (standard)	(a,b,c;0,0,0)	P4₂'/mnm' (136.499) (standard)	4'/mm'm (15.4.56)	Z. Yamani, Z. Tun and D.H. Ryan, Canadian Journal of Physics (2010) 88 771-797. DOI: 10.1139/p10-081
16	0.16 EuTiO₃		0,0,0	I4/mcm (140) (standard)	(a,b,c;0,0,0)	Fm'mm (69.523) (a-b,a+b,c;0,1/2,1/2)	m'mm (8.3.26)	V. Scagnoli, M. Allieta, H. Walker, M. Scavini, T. Katsufuji, L. Sagarna, O. Zaharko and C. Mazzoli, Physical Review B (2012) 86. DOI: 10.1103/physrevb.86.094432
17	0.17 FePO₄		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	P2₁2₁2₁ (19.25) (a,b,c;0,1/2,3/4)	222 (6.1.17)	G. Rousse, J. Rodriguez-Carvajal, S. Patoux and C. Masquelier, Chemistry of Materials (2003) 15 4082-4090. DOI: 10.1021/cm0300462
18	0.18 BaMn₂As₂		0,0,0	I4/mmm (139) (standard)	(a,b,c;0,0,0)	I4'/m'm'm (139.536) (standard)	4'/m'm'm (15.5.57)	Y. Singh, M.A. Green, Q. Huang, A. Kreyssig, R.J. McQueeney, D.C. Johnston and A.I. Goldman, Physical Review B (2009) 80. DOI: 10.1103/physrevb.80.100403
19	0.19 MnTiO₃		0,0,0	R-3 (148) (standard)	(a,b,c;0,0,0)	R-3' (148.19) (standard)	-3' (17.3.64)	G. Shirane, S.J. Pickart and Y. Ishikawa, Journal of the Physical Society of Japan (1959) 14 1352-1360. DOI: 10.1143/jpsj.14.1352
20	0.20 MnTe₂		0,0,0	Pa-3 (205) (standard)	(a,b,c;0,0,0)	Pa-3 (205.33) (standard)	m-3 (29.1.109)	P. Burlet, E. Ressouche, B. Malaman, R. Welter, J.P. Sanchez and P. Vulliet, Physical Review B (1997) 56 14013-14018. DOI: 10.1103/physrevb.56.14013
21	0.21 PbNiO₃		0,0,0	R3c (161) (standard)	(a,b,c;0,0,0)	R3c (161.69) (standard)	3m (19.1.68)	X.F. Hao, A. Stroppa, S. Picozzi, A. Filippetti and C. Franchini, Physical Review B (2012) 86. DOI: 10.1103/physrevb.86.014116
22	0.22 DyB₄		0,0,0	P4/mbm (127) (standard)	(a,b,c;0,0,0)	Pb'am (55.355) (b,-a,c;0,0,0)	m'mm (8.3.26)	G. Will and W. Schafer, Journal of the Less Common Metals (1979) 67 31-39. DOI: 10.1016/0022-5088(79)90071-7
23	0.23 Ca₃Mn₂O₇		0,0,0	Cmc2₁ (36) (standard)	(a,b,c;0,0,0)	Cm'c2₁' (36.174) (standard)	m'm2' (7.3.22)	M.V. Lobanov, M. Greenblatt, E. ad N Caspi, J.D. Jorgensen, D.V. Sheptyakov, B.H. Toby, C.E. Botez and P.W. Stephens, Journal of Physics: Condensed Matter (2004) 16 5339-5348. DOI: 10.1088/0953-8984/16/29/023
24	0.24 LiMnPO₄		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pn'm'a' (62.449) (standard)	m'm'm' (8.5.28)	R. Toft-Petersen, N.H. Andersen, H. Li, J. Li, W. Tian, S.L. Bud'ko, T.B.S. Jensen, C. Niedermayer, M. Laver, O. Zaharko, J.W. Lynn and D. Vaknin, Physical Review B (2012) 85. DOI: 10.1103/physrevb.85.224415
25	0.25 NaOsO₃		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pn'ma' (62.448) (standard)	m'm'm (8.4.27)	S. Calder, V.O. Garlea, D.F. McMorrow, M.D. Lumsden, M.B. Stone, J.C. Lang, J.-W. Kim, J.A. Schlueter, Y.G. Shi, K. Yamaura, Y.S. Sun, Y. Tsujimoto and A.D. Christianson, Physical Review Letters (2012) 108. DOI: 10.1103/physrevlett.108.257209
26	0.26 TmAgGe		0,0,0	P-62m (189) (standard)	(a,b,c;0,0,0)	Am'm'2 (38.191) (c,-a+b,-a-b;0,0,0)	m'm'2 (7.4.23)	S. Baran, D. Kaczorowski, A. Arulraj, B. Penc and A. Szytula, Journal of Magnetism and Magnetic Materials (2009) 321 3256-3261. DOI: 10.1016/j.jmmm.2009.05.064
27	0.27 YFe₄Ge₂		0,0,0	Pnnm (58) (standard)	(a,b,c;0,0,0)	Pn'n'm' (58.399) (standard)	m'm'm' (8.5.28)	P. Schobinger-Papamantellos, J. Rodriguez-Carvajal, G. Andre, N. Duong, K. Buschow and P. Toledano, Journal of Magnetism and Magnetic Materials (2001) 236 14-27. DOI: 10.1016/s0304-8853(01)00442-5
28	0.28 LiFeSi₂O₆		0,0,0	P2₁/c (14) (standard)	(a,b,c;0,0,0)	P2₁/c' (14.78) (standard)	2/m' (5.4.15)	G.J. Redhammer, G. Roth, W. Treutmann, M. Hoelzel, W. Paulus, G. Andre, C. Pietzonka and G. Amthauer, Journal of Solid State Chemistry (2009) 182 2374-2384. DOI: 10.1016/j.jssc.2009.06.013
29	0.29 Er₂Ti₂O₇		0,0,0	Fd-3m (227) (standard)	(a,b,c;0,0,0)	I4₁'/am'd (141.554) (-a/2-b/2,a/2-b/2,c;0,3/4,3/4)	4'/mm'm (15.4.56)	A. Poole, A.S. Wills and E. Lelievre-Berna, Journal of Physics: Condensed Matter (2007) 19 452201. DOI: 10.1088/0953-8984/19/45/452201
30	0.30 YbMnO₃		0,0,0	P6₃cm (185) (standard)	(a,b,c;0,0,0)	P6₃'c'm (185.199) (standard)	6'mm' (25.3.93)	X. Fabreges, I. Mirebeau, P. Bonville, S. Petit, G. Lebras-Jasmin, A. Forget, G. Andre and S. Pailhes, Physical Review B (2008) 78. DOI: 10.1103/physrevb.78.214422
31	0.31 HoMnO₃		0,0,0	P6₃cm (185) (standard)	(a,b,c;0,0,0)	P6₃c'm' (185.201) (standard)	6m'm' (25.4.94)	A. Munoz, J.A. Alonso, M.J. Martinez-Lope, M.T. Casais, J.L. Martinez and M.T. Fernandez-Diaz, Chemistry of Materials (2001) 13 1497-1505. DOI: 10.1021/cm0012264
32	0.32 HoMnO₃		0,0,0	P6₃cm (185) (standard)	(a,b,c;0,0,0)	P6₃cm (185.197) (standard)	6mm (25.1.91)	A. Munoz, J.A. Alonso, M.J. Martinez-Lope, M.T. Casais, J.L. Martinez and M.T. Fernandez-Diaz, Chemistry of Materials (2001) 13 1497-1505. DOI: 10.1021/cm0012264
33	0.33 HoMnO₃		0,0,0	P6₃cm (185) (standard)	(a,b,c;0,0,0)	P6₃cm (185.197) (standard)	6mm (25.1.91)	A. Munoz, J.A. Alonso, M.J. Martinez-Lope, M.T. Casais, J.L. Martinez and M.T. Fernandez-Diaz, Chemistry of Materials (2001) 13 1497-1505. DOI: 10.1021/cm0012264
34	0.34 La_0.5Sr_0.5FeO_2.5F_0.5		0,0,0	Pnma (062) (standard)	(a,b,c;0,0,0)	Pn'ma' (62.448) (standard)	m'm'm (8.4.27)	O. Clemens, F.J. Berry, A.J. Wright, K.S. Knight, J. Perez-Mato, J. Igartua and P.R. Slater, Journal of Solid State Chemistry (2013) 206 158-169. DOI: 10.1016/j.jssc.2013.08.013
35	0.35 Cu₂OSeO₃		0,0,0	P2₁3 (198) (standard)	(a,b,c;0,0,0)	R3 (146.10) (a-b,b-c,a+b+c;0,0,0)	3 (16.1.60)	J.-W.G. Bos, C.V. Colin and T.T.M. Palstra, Physical Review B (2008) 78. DOI: 10.1103/physrevb.78.094416
36	0.36 NiF₂		0,0,0	P4₂/mnm (136) (standard)	(a,b,c;0,0,0)	Pnn'm' (58.398) (b,-a,c;0,0,0)	m'm'm (8.4.27)	P.J. Brown and J.B. Forsyth, Journal of Physics C: Solid State Physics (1981) 14 5171-5184. DOI: 10.1088/0022-3719/14/33/023
37	0.37 U₃Al₂Si₃		0,0,0	I4 (79) (standard)	(a,b,c;0,0,0)	C2' (5.15) (-a-b,c,b;0,0,0)	2' (3.3.8)	A.G. Gukasov, P. Rogl, P.J. Brown, M. Mihalik and A. Menovsky, Journal of Physics: Condensed Matter (2002) 14 8841-8851. DOI: 10.1088/0953-8984/14/38/308
38	0.38 GaFeO₃		0,0,0	Pna2₁ (33) (standard)	(a,b,c;0,0,0)	Pna'2₁' (33.147) (standard)	m'm2' (7.3.22)	T. Arima, D. Higashiyama, Y. Kaneko, J.P. He, T. Goto, S. Miyasaka, T. Kimura, K. Oikawa, T. Kamiyama, R. Kumai and Y. Tokura, Physical Review B (2004) 70. DOI: 10.1103/physrevb.70.064426
39	0.39 Nd₂NaRuO₆		0,0,0	P2₁/n (14) (a,b,a+c;0,0,0)	(a,b,c;0,0,0)	P2₁/c (14.75) (c,b,-a-c;0,0,0)	2/m (5.1.12)	A.A. Aczel, D.E. Bugaris, J. Yeon, C. de la Cruz, H.-C. zur Loye and S.E. Nagler, Physical Review B (2013) 88. DOI: 10.1103/physrevb.88.014413
40	0.40 Mn₂O_3-alpha		0,0,0	Pbca (61) (standard)	(a,b,c;0,0,0)	Pbca (61.433) (standard)	mmm (8.1.24)	E. Cockayne, I. Levin, H. Wu and A. Llobet, Physical Review B (2013) 87. DOI: 10.1103/physrevb.87.184413
41	0.41 Mn₂O_3-alpha		0,0,0	Pbca (61) (standard)	(a,b,c;0,0,0)	Pbca (61.433) (standard)	mmm (8.1.24)	E. Cockayne, I. Levin, H. Wu and A. Llobet, Physical Review B (2013) 87. DOI: 10.1103/physrevb.87.184413
42	0.42 HoMnO₃		0,0,0	P6₃cm (185) (standard)	(a,b,c;0,0,0)	P6₃'c'm (185.199) (standard)	6'mm' (25.3.93)	P.J. Brown and T. Chatterji, Journal of Physics: Condensed Matter (2006) 18 10085-10096. DOI: 10.1088/0953-8984/18/44/008
43	0.43 HoMnO₃		0,0,0	P6₃cm (185) (standard)	(a,b,c;0,0,0)	P6₃'cm' (185.200) (standard)	6'mm' (25.3.93)	P.J. Brown, T. Chatterji, J. Phys.: Condens. Matter (2006) 18 10085 - 10096 DOI: 10.1088/0953-8984/18/44/008
44	0.44 YMnO₃		0,0,0	P6₃cm (185) (standard)	(a,b,c;0,0,0)	P6₃' (173.131) (standard)	6' (21.3.78)	P.J. Brown and T. Chatterji, Journal of Physics: Condensed Matter (2006) 18 10085-10096. DOI: 10.1088/0953-8984/18/44/008
45	0.45 La₂NiO₄		0,0,0	P4₂/ncm (138) (standard)	(a,b,c;0,0,0)	Pc'c'n (56.369) (standard)	m'm'm (8.4.27)	J. Rodriguez-Carvajal, M.T. Fernandez-Diaz and J.L. Martinez, Journal of Physics: Condensed Matter (1991) 3 3215-3234. DOI: 10.1088/0953-8984/3/19/002
46	0.46 CaBaCo₄O₇		0,0,0	Pbn2₁ (33) (-b,a,c;0,0,0)	(a,b,c;0,0,0)	Pna'2₁' (33.147) (b,a,-c;0,0,0)	m'm2' (7.3.22)	V. Caignaert, V. Pralong, V. Hardy, C. Ritter and B. Raveau, Physical Review B (2010) 81. DOI: 10.1103/physrevb.81.094417
47	0.47 Gd₂Sn₂O₇		0,0,0	Fd-3m (227) (standard)	(a,b,c;0,0,0)	I4₁'/amd' (141.555) (1/2a-1/2b,1/2a+1/2b,c;1/4,1/4,0)	4'/mm'm (15.4.56)	A.S. Wills, M.E. Zhitomirsky, B. Canals, J.P. Sanchez, P. Bonville, P.D. de Reotier and A. Yaouanc, Journal of Physics: Condensed Matter (2006) 18 L37-L42. DOI: 10.1088/0953-8984/18/3/l02
48	0.48 Tb₂Sn₂O₇		0,0,0	Fd-3m (227) (standard)	(a,b,c;0,0,0)	I4₁/am'd' (141.557) (1/2a-1/2b,1/2a+1/2b,c;1/4,1/4,0)	4/mm'm' (15.6.58)	I. Mirebeau, A. Apetrei, J. Rodriguez-Carvajal, P. Bonville, A. Forget, D. Colson, V. Glazkov, J.P. Sanchez, O. Isnard and E. Suard, Physical Review Letters (2005) 94. DOI: 10.1103/physrevlett.94.246402
49	0.49 Ho₂Ru₂O₇		0,0,0	Fd-3m (227) (standard)	(a,b,c;0,0,0)	I4₁/am'd' (141.557) (1/2a-1/2b,1/2a+1/2b,c;1/4,1/4,0)	4/mm'm' (15.6.58)	C. Wiebe, J. Gardner, S.-J. Kim, G. Luke, A. Wills, B. Gaulin, J. Greedan, I. Swainson, Y. Qiu and C. Jones, Physical Review Letters (2004) 93. DOI: 10.1103/physrevlett.93.076403
50	0.50 MnTiO₃		0,0,0	R3c (161) (standard)	(a,b,c;0,0,0)	Cc' (9.39) (-1/3a-2/3b-2/3c,a,c;0,0,0)	m' (4.3.11)	A.M. Arevalo-Lopez and J.P. Attfield, Physical Review B (2013) 88. DOI: 10.1103/physrevb.88.104416
51	0.51 Ho₂Ru₂O₇		0,0,0	Fd-3m (227) (standard)	(a,b,c;0,0,0)	I4₁/am'd' (141.557) (1/2a-1/2b,1/2a+1/2b,c;1/4,1/4,0)	4/mm'm' (15.6.58)	C. Wiebe, J. Gardner, S.-J. Kim, G. Luke, A. Wills, B. Gaulin, J. Greedan, I. Swainson, Y. Qiu and C. Jones, Physical Review Letters (2004) 93. DOI: 10.1103/physrevlett.93.076403
52	0.52 K_yFe_2-_xSe₂		0,0,0	I4/m (87) (standard)	(a,b,c;0,0,0)	C2'/m' (12.62) (-a-b,c,b;0,0,0)	2'/m' (5.5.16)	V.Y. Pomjakushin, E.V. Pomjakushina, A. Krzton-Maziopa, K. Conder and Z. Shermadini, Journal of Physics: Condensed Matter (2011) 23 156003. DOI: 10.1088/0953-8984/23/15/156003
53	0.53 Rb_yFe_2-_xSe₂		0,0,0	I4/m (87) (standard)	(a,b,c;0,0,0)	C2'/m' (12.62) (-a-b,c,b;0,0,0)	2'/m' (5.5.16)	V.Y. Pomjakushin, E.V. Pomjakushina, A. Krzton-Maziopa, K. Conder and Z. Shermadini, Journal of Physics: Condensed Matter (2011) 23 156003. DOI: 10.1088/0953-8984/23/15/156003
54	0.54 Rb_yFe_2-_xSe₂		0,0,0	I4/m (87) (standard)	(a,b,c;0,0,0)	I4/m' (87.78) (standard)	4/m' (11.4.38)	V.Y. Pomjakushin, E.V. Pomjakushina, A. Krzton-Maziopa, K. Conder and Z. Shermadini, Journal of Physics: Condensed Matter (2011) 23 156003. DOI: 10.1088/0953-8984/23/15/156003
55	0.55 K_yFe_2-_xSe₂		0,0,0	I4/m (87) (standard)	(a,b,c;0,0,0)	I4/m' (87.78) (standard)	4/m' (11.4.38)	V.Y. Pomjakushin, E.V. Pomjakushina, A. Krzton-Maziopa, K. Conder and Z. Shermadini, Journal of Physics: Condensed Matter (2011) 23 156003. DOI: 10.1088/0953-8984/23/15/156003
56	0.56 Ba₂CoGe₂O₇		0,0,0	P-42₁m (113) (standard)	(a,b,c;0,0,0)	Cm'm2' (35.167) (a+b,-a+b,c;1/2,0,0)	m'm2' (7.3.22)	V. Hutanu, A. Sazonov, M. Meven, H. Murakawa, Y. Tokura, S. Bordacs, I. Kezsmarki and B. Nafradi, Physical Review B (2012) 86. DOI: 10.1103/physrevb.86.104401
57	0.57 ScFeO₃		0,0,0	R3c (161) (standard)	(a,b,c;0,0,0)	Cc' (9.39) (-1/3a-2/3b-2/3c,a,c;0,0,0)	m' (4.3.11)	M.-R. Li, U. Adem, S.R.C. McMitchell, Z. Xu, C.I. Thomas, J.E. Warren, D.V. Giap, H. Niu, X. Wan, R.G. Palgrave, F. Schiffmann, F. Cora, B. Slater, T.L. Burnett, M.G. Cain, A.M. Abakumov, G. van Tendeloo, M.F. Thomas, M.J. Rosseinsky and J.B. Claridge, Journal of the American Chemical Society (2012) 134 3737-3747. DOI: 10.1021/ja208395z
58	0.58 CoAl₂O₄		0,0,0	Fd-3m (227) (standard)	(a,b,c;0,0,0)	I4₁'/a'm'd (141.556) (1/2a-1/2b,1/2a+1/2b,c;1/4,1/4,0)	4'/m'm'm (15.5.57)	B. Roy, A. Pandey, Q. Zhang, T.W. Heitmann, D. Vaknin, D.C. Johnston and Y. Furukawa, Physical Review B (2013) 88. DOI: 10.1103/physrevb.88.174415
59	0.59 Cr₂O₃		0,0,0	R-3c (167) (standard)	(a,b,c;0,0,0)	R-3'c' (167.106) (standard)	-3'm' (20.4.74)	P.J. Brown, J.B. Forsyth, E. Lelievre-Berna and F. Tasset, Journal of Physics: Condensed Matter (2002) 14 1957-1966. DOI: 10.1088/0953-8984/14/8/323
60	0.60 [NH₂(CH₃)₂]_n[Fe^IIIFe^II(HCOO)₆]_n		0,0,0	R-3c (167) (standard)	(a,b,c;0,0,0)	R-3c' (167.107) (standard)	-3m' (20.5.75)	L. Canadillas-Delgado, O. Fabelo, J.A. Rodriguez-Velamazan, M.-H. Lemee-Cailleau, S.A. Mason, E. Pardo, F. Lloret, J.-P. Zhao, X.-H. Bu, V. Simonet, C.V. Colin and J. Rodriguez-Carvajal, Journal of the American Chemical Society (2012) 134 19772-19781. DOI: 10.1021/ja3082457
61	0.61 Li₂FeP₂O₇		0,0,0	P2₁/c (14) (standard)	(a,b,c;0,0,0)	P2₁/c (14.75) (standard)	2/m (5.1.12)	P. Barpanda, G. Rousse, T. Ye, C.D. Ling, Z. Mohamed, Y. Klein and A. Yamada, Inorganic Chemistry (2013) 52 3334-3341. DOI: 10.1021/ic302816w
62	0.62 SrMn₂V₂O₈		0,0,0	I4₁cd (110) (standard)	(a,b,c;0,0,0)	Ib'a2' (45.237) (standard)	m'm2' (7.3.22)	A.K. Bera, B. Lake, W.-D. Stein and S. Zander, Physical Review B (2014) 89. DOI: 10.1103/physrevb.89.094402
63	0.63 Ho₂CrSbO₇		0,0,0	Fd-3m (227) (standard)	(a,b,c;0,0,0)	I4₁/am'd' (141.557) (1/2a-1/2b,1/2a+1/2b,c;1/4,1/4,0)	4/mm'm' (15.6.58)	M.J. Whitaker and C. Greaves, Journal of Solid State Chemistry (2014) 215 171-175. DOI: 10.1016/j.jssc.2014.03.039
64	0.64 MnV₂O₄		0,0,0	I4₁/a (88) (standard)	(a,b,c;0,0,0)	I4₁/a (88.81) (standard)	4/m (11.1.35)	V.O. Garlea, R. Jin, D. Mandrus, B. Roessli, Q. Huang, M. Miller, A.J. Schultz and S.E. Nagler, Physical Review Letters (2008) 100. DOI: 10.1103/physrevlett.100.066404
65	0.65 Fe₂O_3-alpha		0,0,0	R-3c (167) (standard)	(a,b,c;0,0,0)	C2'/c' (15.89) (1/3a+2/3b+2/3c,-a,-1/3a-2/3b+1/3c;0,1/2,0)	2'/m' (5.5.16)	A.H. Hill, F. Jiao, P.G. Bruce, A. Harrison, W. Kockelmann and C. Ritter, Chemistry of Materials (2008) 20 4891-4899. DOI: 10.1021/cm800009s
66	0.66 Fe₂O_3-alpha		0,0,0	R-3c (167) (standard)	(a,b,c;0,0,0)	P-1 (2.4) (a,b,2/3a+1/3b+1/3c;0,0,0)	-1 (2.1.3)	A.H. Hill, F. Jiao, P.G. Bruce, A. Harrison, W. Kockelmann and C. Ritter, Chemistry of Materials (2008) 20 4891-4899. DOI: 10.1021/cm800009s
67	0.67 BiFe_0.5Sc_0.5O₃		0,0,0	Ima2 (46) (standard)	(a,b,c;0,0,0)	Im'a2' (46.243) (standard)	m'm2' (7.3.22)	D.D. Khalyavin, A.N. Salak, N.M. Olekhnovich, A.V. Pushkarev, Y.V. Radyush, P. Manuel, I.P. Raevski, M.L. Zheludkevich and M.G.S. Ferreira, Physical Review B (2014) 89. DOI: 10.1103/physrevb.89.174414
68	0.68 BiFe_0.5Sc_0.5O₃		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pn'm'a (62.446) (standard)	m'm'm (8.4.27)	D.D. Khalyavin, A.N. Salak, N.M. Olekhnovich, A.V. Pushkarev, Y.V. Radyush, P. Manuel, I.P. Raevski, M.L. Zheludkevich and M.G.S. Ferreira, Physical Review B (2014) 89. DOI: 10.1103/physrevb.89.174414
69	0.69 Co₄(OH)₂(C₁₀H₁₆O₄)₃		0,0,0	P2₁/c (14) (standard)	(a,b,c;0,0,0)	P2₁'/c' (14.79) (standard)	2'/m' (5.5.16)	R. Sibille, E. Lhotel, T. Mazet, B. Malaman, C. Ritter, V. Ban and M. François, Physical Review B (2014) 89. DOI: 10.1103/physrevb.89.104413
70	0.70 Na₃Co(CO₃)₂Cl		0,0,0	Fd-3 (203) (standard)	(a,b,c;0,0,0)	Fd-3 (203.26) (standard)	m-3 (29.1.109)	Z. Fu, Y. Zheng, Y. Xiao, S. Bedanta, A. Senyshyn, G.G. Simeoni, Y. Su, U. Rucker, P. Kogerler and T. Bruckel, Physical Review B (2013) 87. DOI: 10.1103/physrevb.87.214406
71	0.71 Li₂Ni(SO₄)₂		0,0,0	Pbca (61) (standard)	(a,b,c;0,0,0)	Pb'c'a' (61.437) (standard)	m'm'm' (8.5.28)	M. Reynaud, J. Rodriguez-Carvajal, J.-N. Chotard, J.-M. Tarascon and G. Rousse, Physical Review B (2014) 89. DOI: 10.1103/physrevb.89.104419
72	0.72 CaMnBi₂		0,0,0	P4/nmm (129) (standard)	(a,b,c;0,0,0)	P4'/n'm'm (129.416) (standard)	4'/m'm'm (15.5.57)	Y.F. Guo, A.J. Princep, X. Zhang, P. Manuel, D. Khalyavin, I.I. Mazin, Y.G. Shi and A.T. Boothroyd, Physical Review B (2014) 90. DOI: 10.1103/physrevb.90.075120
73	0.73 SrMnBi₂		0,0,0	I4/mmm (139) (standard)	(a,b,c;0,0,0)	I4'/m'm'm (139.536) (standard)	4'/m'm'm (15.5.57)	Y.F. Guo, A.J. Princep, X. Zhang, P. Manuel, D. Khalyavin, I.I. Mazin, Y.G. Shi and A.T. Boothroyd, Physical Review B (2014) 90. DOI: 10.1103/physrevb.90.075120
74	0.74 Mn₃Cu_0.5Ge_0.5N		0,0,0	Pm-3m (221) (standard)	(a,b,c;0,0,0)	R-3m (166.97) (a-b,b-c,a+b+c;0,0,0)	-3m (20.1.71)	S. Iikubo, K. Kodama, K. Takenaka, H. Takagi and S. Shamoto, Physical Review B (2008) 77. DOI: 10.1103/physrevb.77.020409
75	0.75 Cr₂WO₆		0,0,0	P4₂/mnm (136) (standard)	(a,b,c;0,0,0)	Pn'nm (58.395) (b,-a,c;0,0,0)	m'mm (8.3.26)	M. Zhu, D. Do, C.D. Cruz, Z. Dun, H. Zhou, S. Mahanti and X. Ke, Physical Review Letters (2014) 113. DOI: 10.1103/physrevlett.113.076406
76	0.76 Cr₂TeO₆		0,0,0	P4₂/mnm (136) (standard)	(a,b,c;0,0,0)	Pn'nm (58.395) (a,b,c;1/2,1/2,1/2)	m'mm (8.3.26)	M. Zhu, D. Do, C.D. Cruz, Z. Dun, H. Zhou, S. Mahanti and X. Ke, Physical Review Letters (2014) 113. DOI: 10.1103/physrevlett.113.076406
77	0.77 Tb₂Ti₂O₇		0,0,0	Fd-3m (227) (standard)	(a,b,c;0,0,0)	R-3m' (166.101) (1/2a-1/2c,-1/2a+1/2b,a+b+c;0,0,0)	-3m' (20.5.75)	A.P. Sazonov, A. Gukasov, H.B. Cao, P. Bonville, E. Ressouche, C. Decorse and I. Mirebeau, Physical Review B (2013) 88. DOI: 10.1103/physrevb.88.184428
78	0.78 NiN₂O₆		0,0,0	R-3 (148) (standard)	(a,b,c;0,0,0)	R-3 (148.17) (standard)	-3 (17.1.62)	O.S. Volkova, V.V. Mazurenko, I.V. Solovyev, E.B. Deeva, I.V. Morozov, J.-Y. Lin, C.K. Wen, J.M. Chen, M. Abdel-Hafiez and A.N. Vasiliev, Physical Review B (2014) 90. DOI: 10.1103/physrevb.90.134407
79	0.79 CaIrO₃		0,0,0	Cmcm (63) (standard)	(a,b,c;0,0,0)	Cm'cm' (63.464) (standard)	m'm'm (8.4.27)	K. Ohgushi, J.-i. Yamaura, H. Ohsumi, K. Sugimoto, S. Takeshita, A. Tokuda, H. Takagi, M. Takata and T.-h. Arima, Physical Review Letters (2013) 110. DOI: 10.1103/physrevlett.110.217212
80	0.80 U₂Pd₂In		0,0,0	P4/mbm (127) (standard)	(a,b,c;0,0,0)	P4'/m'bm' (127.394) (standard)	4'/m'm'm (15.5.57)	A. Purwanto, R.A. Robinson, L. Havela, V. Sechovsky, P. Svoboda, H. Nakotte, K. Prokes, F.R. de Boer, A. Seret, J.M. Winand, J. Rebizant and J.C. Spirlet, Physical Review B (1994) 50 6792-6801. DOI: 10.1103/physrevb.50.6792
81	0.81 U₂Pd₂Sn		0,0,0	P4/mbm (127) (standard)	(a,b,c;0,0,0)	P4'/m'bm' (127.394) (standard)	4'/m'm'm (15.5.57)	A. Purwanto, R.A. Robinson, L. Havela, V. Sechovsky, P. Svoboda, H. Nakotte, K. Prokes, F.R. de Boer, A. Seret, J.M. Winand, J. Rebizant and J.C. Spirlet, Physical Review B (1994) 50 6792-6801. DOI: 10.1103/physrevb.50.6792
82	0.82 Gd₂CuO₄		0,0,0	Aeam (64) (c,b,-a;0,0,0)	(a,b,c;0,0,0)	Cm'ca' (64.476) (c,b,-a;0,0,0)	m'm'm (8.4.27)	P.J. Brown and T. Chatterji, Physical Review B (2011) 84. DOI: 10.1103/physrevb.84.054426
83	0.83 LiFeP₂O₇		0,0,0	P2₁ (4) (standard)	(a,b,c;0,0,0)	P2₁ (4.7) (standard)	2 (3.1.6)	G. Rousse, J. Rodriguez-Carvajal, C. Wurm and C. Masquelier, Solid State Sciences (2002) 4 973-978. DOI: 10.1016/s1293-2558(02)01347
84	0.84 Mn₂FeMoO₆		0,0,0	R3 (146) (standard)	(a,b,c;0,0,0)	R3 (146.10) (standard)	3 (16.1.60)	M.-R. Li, M. Retuerto, D. Walker, T. Sarkar, P.W. Stephens, S. Mukherjee, T.S. Dasgupta, J.P. Hodges, M. Croft, C.P. Grams, J. Hemberger, J. Sanchez-Benitez, A. Huq, F.O. Saouma, J.I. Jang and M. Greenblatt, Angewandte Chemie International Edition (2014) 53 10774-10778. DOI: 10.1002/anie.201406180
85	0.85 KCo₄(PO₄)₃		0,0,0	Pnnm (58) (standard)	(a,b,c;0,0,0)	Pnn'm' (58.398) (standard)	m'm'm (8.4.27)	M. Lopez, A. Daidouh, C. Pico, J. Rodriguez-Carvajal and M. Veiga, Chemistry - A European Journal (2008) 14 10829-10838. DOI: 10.1002/chem.200800763
86	0.86 KMn₄(PO₄)₃		0,0,0	Pnam (62) (a,c,-b;0,0,0)	(a,b,c;0,0,0)	Pnma' (62.445) (a,c,-b;0,0,0)	m'mm (8.3.26)	M. Lopez, A. Daidouh, C. Pico, J. Rodriguez-Carvajal and M. Veiga, Chemistry - A European Journal (2008) 14 10829-10838. DOI: 10.1002/chem.200800763
87	0.87 NaFePO₄		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pnma' (62.445) (standard)	m'mm (8.3.26)	M. Avdeev, Z. Mohamed, C.D. Ling, J. Lu, M. Tamaru, A. Yamada and P. Barpanda, Inorganic Chemistry (2013) 52 8685-8693. DOI: 10.1021/ic400870x
88	0.88 LiNiPO₄		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pnm'a (62.444) (standard)	m'mm (8.3.26)	T.B.S. Jensen, N.B. Christensen, M. Kenzelmann, H.M. Ronnow, C. Niedermayer, N.H. Andersen, K. Lefmann, J. Schefer, M. v. Zimmermann, J. Li, J.L. Zarestky and D. Vaknin, Physical Review B (2009) 79. DOI: 10.1103/physrevb.79.092412
89	0.89 BaMn₂Bi₂		0,0,0	I4/mmm (139) (standard)	(a,b,c;0,0,0)	I4'/m'm'm (139.536) (standard)	4'/m'm'm (15.5.57)	S. Calder, B. Saparov, H.B. Cao, J.L. Niedziela, M.D. Lumsden, A.S. Sefat and A.D. Christianson, Physical Review B (2014) 89. DOI: 10.1103/physrevb.89.064417
90	0.90 Rb₂Fe₂O(AsO₄)₂		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pnma (62.441) (standard)	mmm (8.1.24)	V.O. Garlea, L.D. Sanjeewa, M.A. McGuire, P. Kumar, D. Sulejmanovic, J. He and S.-J. Hwu, Physical Review B (2014) 89. DOI: 10.1103/physrevb.89.014426
91	0.91 Rb₂Fe₂O(AsO₄)₂		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pn'ma' (62.448) (standard)	m'm'm (8.4.27)	V.O. Garlea, L.D. Sanjeewa, M.A. McGuire, P. Kumar, D. Sulejmanovic, J. He and S.-J. Hwu, Physical Review B (2014) 89. DOI: 10.1103/physrevb.89.014426
92	0.92 CaMn₂Sb₂		0,0,0	P-3m1 (164) (standard)	(a,b,c;0,0,0)	C2'/m (12.60) (a+2b,-a,c;0,0,0)	2'/m (5.3.14)	II W. Ratcliff, A.L. Sharma, A. Gomes, J. Gonzalez, Q. Huang and J. Singleton, Journal of Magnetism and Magnetic Materials (2009) 321 2612-2616. DOI: 10.1016/j.jmmm.2009.03.054
93	0.93 Ca₂Fe₂O₅		0,0,0	Pcmn (62) (c,b,-a;0,0,0)	(a,b,c;0,0,0)	Pcm'n' (62.446) (c,b,-a;0,0,0)	m'm'm (8.4.27)	J.E. Auckett, G.J. McIntyre, M. Avdeev, H.D. Bruyn, T.T. Tan, S. Li and C.D. Ling, Journal of Applied Crystallography (2015) 48 273-279. DOI: 10.1107/s1600576714027976
94	0.94 TeNiO₃		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pn'm'a (62.446) (standard)	m'm'm (8.4.27)	M.J. Martinez-Lope, M. Retuerto, J.A. Alonso, J. Sanchez-Benitez and M.T. Fernandez-Diaz, Dalton Transactions (2011) 40 4599. DOI: 10.1039/c0dt01752c
95	0.95 LiFePO₄		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pnma' (62.445) (standard)	m'mm (8.3.26)	G. Rousse, J. Rodriguez-Carvajal, S. Patoux and C. Masquelier, Chemistry of Materials (2003) 15 4082-4090. DOI: 10.1021/cm0300462
96	0.96 CoSO₄		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pnma (62.441) (standard)	mmm (8.1.24)	P.J. Brown and B.C. Frazer, Physical Review (1963) 129 1145-1147. DOI: 10.1103/physrev.129.1145
97	0.97 FeSb₂O₄		0,0,0	P4₂/mbc (135) (standard)	(a,b,c;0,0,0)	Pmc2₁ (26.66) (-c,-a,b;1/4,0,0)	mm2 (7.1.20)	J.A. Gonzalo, D.E. Cox and G. Shirane, Physical Review (1966) 147 415-418. DOI: 10.1103/physrev.147.415
98	0.98 YBaMn₂O_5.5		0,0,0	Icam (72) (a,c,-b;0,0,0)	(a,b,c;0,0,0)	Ib'a'm (72.543) (a,c,-b;0,0,0)	m'm'm (8.4.27)	C. Perca, L. Pinsard-Gaudart, A. Daoud-Aladine, M.T. Fernandez-Diaz and J. Rodriguez-Carvajal, Chemistry of Materials (2005) 17 1835-1843. DOI: 10.1021/cm048119k
99	0.99 YBaMn₂O_5.5		0,0,0	Icam (72) (a,c,-b;0,0,0)	(a,b,c;0,0,0)	C2/m (12.58) (a+c,b,c;0,0,0)	2/m (5.1.12)	C. Perca, L. Pinsard-Gaudart, A. Daoud-Aladine, M.T. Fernandez-Diaz and J. Rodriguez-Carvajal, Chemistry of Materials (2005) 17 1835-1843. DOI: 10.1021/cm048119k
100	0.100 YCr_0.5Mn_0.5O₃		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pn'ma' (62.448) (standard)	m'm'm (8.4.27)	H. James, B.J. Kennedy, T.A. Whittle and M. Avdeev, Dalton Trans. (2014) 43 17085-17089. DOI: 10.1039/c4dt02503b
101	0.101 Mn₂GeO₄		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pn'm'a (62.446) (standard)	m'm'm (8.4.27)	J.S. White, T. Honda, K. Kimura, T. Kimura, C. Niedermayer, O. Zaharko, A. Poole, B. Roessli and M. Kenzelmann, Physical Review Letters (2012) 108. DOI: 10.1103/physrevlett.108.077204
102	0.102 Mn₂GeO₄		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pnma (62.441) (standard)	mmm (8.1.24)	J.S. White, T. Honda, K. Kimura, T. Kimura, C. Niedermayer, O. Zaharko, A. Poole, B. Roessli and M. Kenzelmann, Physical Review Letters (2012) 108. DOI: 10.1103/physrevlett.108.077204
103	0.103 Mn₂GeO₄		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	P2₁/c (14.75) (-b,-c,a;0,0,0)	2/m (5.1.12)	J.S. White, T. Honda, K. Kimura, T. Kimura, C. Niedermayer, O. Zaharko, A. Poole, B. Roessli and M. Kenzelmann, Physical Review Letters (2012) 108. DOI: 10.1103/physrevlett.108.077204
104	0.104 ErVO₃		0,0,0	Pbnm (62) (b,c,a;0,0,0)	(a,b,c;0,0,0)	P2₁'/m' (11.54) (a,-c,b;0,0,0)	2'/m' (5.5.16)	M. Reehuis, C. Ulrich, K. Prokes, S. Mat'as, J. Fujioka, S. Miyasaka, Y. Tokura and B. Keimer, Physical Review B (2011) 83. DOI: 10.1103/physrevb.83.064404
105	0.105 ErVO₃		0,0,0	Pbnm (62) (b,c,a;0,0,0)	(a,b,c;0,0,0)	P2₁/c (14.75) (-c,a,-b;0,0,0)	2/m (5.1.12)	M. Reehuis, C. Ulrich, K. Prokes, S. Mat'as, J. Fujioka, S. Miyasaka, Y. Tokura and B. Keimer, Physical Review B (2011) 83. DOI: 10.1103/physrevb.83.064404
106	0.106 DyVO₃		0,0,0	Pbnm (62) (b,c,a;0,0,0)	(a,b,c;0,0,0)	P2₁'/m' (11.54) (a,-c,b;0,0,0)	2'/m' (5.5.16)	M. Reehuis, C. Ulrich, K. Prokes, S. Mat'as, J. Fujioka, S. Miyasaka, Y. Tokura and B. Keimer, Physical Review B (2011) 83. DOI: 10.1103/physrevb.83.064404
107	0.107 Ho₂Ge₂O₇		0,0,0	P4₁2₁2 (92) (standard)	(a,b,c;0,0,0)	P4₁2₁2 (92.111) (standard)	422 (12.1.40)	E. Morosan, J.A. Fleitman, Q. Huang, J.W. Lynn, Y. Chen, X. Ke, M.L. Dahlberg, P. Schiffer, C.R. Craley and R.J. Cava, Physical Review B (2008) 77. DOI: 10.1103/physrevb.77.224423
108	0.108 Mn₃Ir		0,0,0	Pm-3m (221) (standard)	(a,b,c;0,0,0)	R-3m' (166.101) (b-c,-a+c,a+b+c;0,0,0)	-3m' (20.5.75)	I. Tomeno, H.N. Fuke, H. Iwasaki, M. Sahashi and Y. Tsunoda, Journal of Applied Physics (1999) 86 3853-3856. DOI: 10.1063/1.371298
109	0.109 Mn₃Pt		0,0,0	Pm-3m (221) (standard)	(a,b,c;0,0,0)	R-3m' (166.101) (b-c,-a+c,a+b+c;0,0,0)	-3m' (20.5.75)	E. Kren, G. Kadar, L. Pal and P. Szabo, Journal of Applied Physics (1967) 38 1265-1266. DOI: 10.1063/1.1709571
110	0.110 Cr₂O₃		0,0,0	R-3c (167) (standard)	(a,b,c;0,0,0)	C2'/c (15.87) (1/3a+2/3b-4/3c,a,-1/3a-2/3b+1/3c;0,1/2,0)	2'/m (5.3.14)	M. Fiebig, D. Frohlich and H.J. Thiele, Physical Review B (1996) 54 R12681-R12684. DOI: 10.1103/physrevb.54.r12681
111	0.111 Co₄Nb₂O₉		0,0,0	P-3c1 (165) (standard)	(a,b,c;0,0,0)	P-3'c'1 (165.94) (standard)	-3'm' (20.4.74)	E. Bertaut, L. Corliss, F. Forrat, R. Aleonard and R. Pauthenet, Journal of Physics and Chemistry of Solids (1961) 21 234-251. DOI: 10.1016/0022-3697(61)90103-2
112	0.112 FeBO₃		0,0,0	R-3c (167) (standard)	(a,b,c;0,0,0)	C2'/c' (15.89) (1/3a+2/3b-4/3c,a,-1/3a-2/3b+1/3c;0,1/2,0)	2'/m' (5.5.16)	M. Pernet, D. Elmale and J.-C. Joubert, Solid State Communications (1970) 8 1583-1587. DOI: 10.1016/0038-1098(70)90469-2
113	0.113 NiCO₃		0,0,0	R-3c (167) (standard)	(a,b,c;0,0,0)	C2/c (15.85) (1/3a+2/3b-4/3c,a,-1/3a-2/3b+1/3c;0,1/2,0)	2/m (5.1.12)	R. Plumier, M. Sougi and R. Saint-James, Physical Review B (1983) 28 4016-4020. DOI: 10.1103/physrevb.28.4016
114	0.114 CoCO₃		0,0,0	R-3c (167) (standard)	(a,b,c;0,0,0)	C2/c (15.85) (1/3a+2/3b-4/3c,a,-1/3a-2/3b+1/3c;0,1/2,0)	2/m (5.1.12)	P.J. Brown, P.J. Welford and J.B. Forsyth, Journal of Physics C: Solid State Physics (1973) 6 1405-1421. DOI: 10.1088/0022-3719/6/8/008
115	0.115 MnCO₃		0,0,0	R-3c (167) (standard)	(a,b,c;0,0,0)	C2/c (15.85) (1/3a+2/3b-4/3c,a,-1/3a-2/3b+1/3c;0,1/2,0)	2/m (5.1.12)	P.J. Brown and J.B. Forsyth, Proceedings of the Physical Society (1967) 92 125-135. DOI: 10.1088/0370-1328/92/1/319
116	0.116 FeCO₃		0,0,0	R-3c (167) (standard)	(a,b,c;0,0,0)	R-3c (167.103) (standard)	-3m (20.1.71)	Alikhanov, R.A. et al., Sov. Phys. JETP (1959) 9 1204 - ? DOI: ?
117	0.117 LuFeO₃		0,0,0	P6₃cm (185) (standard)	(a,b,c;0,0,0)	P6₃c'm' (185.201) (standard)	6m'm' (25.4.94)	S.M. Disseler, J.A. Borchers, C.M. Brooks, J.A. Mundy, J.A. Moyer, D.A. Hillsberry, E.L. Thies, D.A. Tenne, J. Heron, M.E. Holtz, J.D. Clarkson, G.M. Stiehl, P. Schiffer, D.A. Muller, D.G. Schlom and W.D. Ratcliff, Physical Review Letters (2015) 114. DOI: 10.1103/physrevlett.114.217602
118	0.118 Ba₅Co₅ClO₁₃		0,0,0	P6₃/mmc (194) (standard)	(a,b,c;0,0,0)	P6₃'/m'm'c (194.268) (standard)	6'/m'mm' (27.5.104)	O. Mentre, M. Kauffmann, G. Ehora, S. Daviero-Minaud, F. Abraham and P. Roussel, Solid State Sciences (2008) 10 471-475. DOI: 10.1016/j.solidstatesciences.2007.12.032
119	0.119 CoSe₂O₅		0,0,0	Pbcn (60) (standard)	(a,b,c;0,0,0)	Pb'cn (60.419) (standard)	m'mm (8.3.26)	B.C. Melot, B. Paden, R. Seshadri, E. Suard, G. Nenert, A. Dixit and G. Lawes, Physical Review B (2010) 82. DOI: 10.1103/physrevb.82.014411
120	0.120 LiFe(SO₄)₂		0,0,0	P2₁/c (14) (standard)	(a,b,c;0,0,0)	P2₁/c (14.75) (standard)	2/m (5.1.12)	M. Reynaud, G. Rousse, J.-N. Chotard, J. Rodriguez-Carvajal and J.-M. Tarascon, Inorganic Chemistry (2013) 52 10456-10466. DOI: 10.1021/ic401280e
121	0.121 Li₂Co(SO₄)₂		0,0,0	P2₁/c (14) (standard)	(a,b,c;0,0,0)	P2₁'/c' (14.79) (standard)	2'/m' (5.5.16)	M. Reynaud, G. Rousse, J.-N. Chotard, J. Rodriguez-Carvajal and J.-M. Tarascon, Inorganic Chemistry (2013) 52 10456-10466. DOI: 10.1021/ic401280e
122	0.122 Li₂Mn(SO₄)₂		0,0,0	P2₁/c (14) (standard)	(a,b,c;0,0,0)	P2₁/c (14.75) (standard)	2/m (5.1.12)	M. Reynaud, G. Rousse, J.-N. Chotard, J. Rodriguez-Carvajal and J.-M. Tarascon, Inorganic Chemistry (2013) 52 10456-10466. DOI: 10.1021/ic401280e
123	0.123 Mn₃NiN		0,0,0	Pm-3m (221) (standard)	(a-b,b-c,a+b+c;0,0,0)	R-3 (148.17) (standard)	-3 (17.1.62)	M. Wu, C. Wang, Y. Sun, L. Chu, J. Yan, D. Chen, Q. Huang and J.W. Lynn, Journal of Applied Physics (2013) 114 123902. DOI: 10.1063/1.4822023
124	0.124 Mn₃NiN		0,0,0	Pm-3m (221) (standard)	(a-b,b-c,a+b+c;0,0,0)	R-3 (148.17) (standard)	-3 (17.1.62)	M. Wu, C. Wang, Y. Sun, L. Chu, J. Yan, D. Chen, Q. Huang and J.W. Lynn, Journal of Applied Physics (2013) 114 123902. DOI: 10.1063/1.4822023
125	0.125 MnGeO₃		0,0,0	R-3 (148) (standard)	(a,b,c;0,0,0)	R-3' (148.19) (standard)	-3' (17.3.64)	K. Tsuzuki, Y. Ishikawa, N. Watanabe and S. Akimoto, Journal of the Physical Society of Japan (1974) 37 1242-1247. DOI: 10.1143/jpsj.37.1242
126	0.126 NpCo₂		0,0,0	Fd-3m (227) (a,b,c;1/8,1/8,1/8)	(a,b,c;0,0,0)	I4₁'/a'm'd (141.556) (1/2a+1/2b,-1/2a+1/2b,c;1/4,0,1/4)	4'/m'm'm (15.5.57)	A.T. Aldred, B.D. Dunlap, D.J. Lam, G.H. Lander, M.H. Mueller and I. Nowik, Physical Review B (1975) 11 530-544. DOI: 10.1103/physrevb.11.530
127	0.127 Dy₃Al₅O₁₂		0,0,0	Ia-3d (230) (standard)	(a,b,c;0,0,0)	Ia-3d' (230.148) (standard)	m-3m' (32.4.121)	J.M. Hastings, L.M. Corliss and C.G. Windsor, Physical Review (1965) 138 A176-A177. DOI: 10.1103/physrev.138.a176
128	0.128 FeSO₄F		0,0,0	C2/c (15) (standard)	(a,b,c;0,0,0)	C2'/c' (15.89) (standard)	2'/m' (5.5.16)	B.C. Melot, G. Rousse, J.-N. Chotard, M. Ati, J. Rodriguez-Carvajal, M.C. Kemei and J.-M. Tarascon, Chemistry of Materials (2011) 23 2922-2930. DOI: 10.1021/cm200465u
129	0.129 Cu₃Mo₂O₉		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	P2₁'2₁'2₁ (19.27) (a,-c,b;1/4,1/4,0)	2'2'2 (6.3.19)	S. Vilminot, G. Andre and M. Kurmoo, Inorganic Chemistry (2009) 48 2687-2692. DOI: 10.1021/ic802410p
130	0.130 Cu₃Mo₂O₉		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pm'c2₁' (26.68) (-b,-c,a;0,1/4,1/4)	m'm2' (7.3.22)	M. Hase, H. Kuroe, V.Y. Pomjakushin, L. Keller, R. Tamura, N. Terada, Y. Matsushita, A. Donni and T. Sekine, Physical Review B (2015) 92. DOI: 10.1103/physrevb.92.054425
131	0.131 Mn(N(CN₂))₂		0,0,0	Pnnm (58) (standard)	(a,b,c;0,0,0)	Pnn'm' (58.398) (-b,a,c;0,0,0)	m'm'm (8.4.27)	A. Lappas, A.S. Wills, M.A. Green, K. Prassides and M. Kurmoo, Physical Review B (2003) 67. DOI: 10.1103/physrevb.67.144406
132	0.132 Fe(N(CN₂))₂		0,0,0	Pnnm (58) (standard)	(a,b,c;0,0,0)	Pnn'm' (58.398) (-b,a,c;0,0,0)	m'm'm (8.4.27)	A. Lappas, A.S. Wills, M.A. Green, K. Prassides and M. Kurmoo, Physical Review B (2003) 67. DOI: 10.1103/physrevb.67.144406
133	0.133 Ni₃B₇O₁₃Cl		0,0,0	Pca2₁ (29) (standard)	(a,b,c;0,0,0)	Pc'a2₁' (29.101) (standard)	m'm2' (7.3.22)	Y Z.-G., P. Schobinger-Papamantellos, S.-Y. Mao, C. Ritter, E. Suard, M. Sato and H. Schmid, Ferroelectrics (1997) 204 83-95. DOI: 10.1080/00150199708222190
134	0.134 Mn₃B₇O₁₃I		0,0,0	Pca2₁ (29) (standard)	(a,b,c;0,0,0)	Pc'a2₁' (29.101) (standard)	m'm2' (7.3.22)	O. Crottaz, P. Schobinger-Papamantellos, E. Suard, C. Ritter, S. Gentil, J.-P. Rivera and H. Schmid, Ferroelectrics (1997) 204 45-55. DOI: 10.1080/00150199708222187
135	0.135 Ni₃B₇O₁₃Br		0,0,0	Pca2₁ (29) (standard)	(a,b,c;0,0,0)	Pc'a2₁' (29.101) (standard)	m'm2' (7.3.22)	S.Y. Mao, F. Kubel, H. Schmid, P. Schobinger and P. Fischer, Ferroelectrics (1993) 146 81-97. DOI: 10.1080/00150199308008529
136	0.136 Co₃B₇O₁₃Br		0,0,0	Pca2₁ (29) (standard)	(a,b,c;0,0,0)	Pc'a2₁' (29.101) (standard)	m'm2' (7.3.22)	P. Schobinger-papamantellos, P. Fischer, F. Kubel and H. Schmid, Ferroelectrics (1994) 162 93-101. DOI: 10.1080/00150199408245095
137	0.137 Cu₂V₂O₇		0,0,0	Fdd2 (43) (standard)	(a,b,c;0,0,0)	Fd'd'2 (43.227) (standard)	m'm'2 (7.4.23)	G. Gitgeatpong, Y. Zhao, M. Avdeev, R.O. Piltz, T.J. Sato and K. Matan, Physical Review B (2015) 92. DOI: 10.1103/physrevb.92.024423
138	0.138 BiCrO₃		0,0,0	C2/c (15) (standard)	(a,b,c;0,0,0)	C2/c (15.85) (standard)	2/m (5.1.12)	C. Darie, C. Goujon, M. Bacia, H. Klein, P. Toulemonde, P. Bordet and E. Suard, Solid State Sciences (2010) 12 660-664. DOI: 10.1016/j.solidstatesciences.2008.12.004
139	0.139 BiCrO₃		0,0,0	C2/c (15) (standard)	(a,b,c;0,0,0)	P-1 (2.4) (1/2a+1/2b,-1/2a+1/2b,c;0,0,0)	-1 (2.1.3)	C. Darie, C. Goujon, M. Bacia, H. Klein, P. Toulemonde, P. Bordet and E. Suard, Solid State Sciences (2010) 12 660-664. DOI: 10.1016/j.solidstatesciences.2008.12.004
140	0.140 LuFe₄Ge₂		0,0,0	P4₂/mnm (136) (standard)	(a,b,c;0,0,0)	Pn'n'm' (58.399) (standard)	m'm'm' (8.5.28)	P. Schobinger-Papamantellos, K. Buschow and J. Rodriguez-Carvajal, Journal of Magnetism and Magnetic Materials (2012) 324 3709-3715. DOI: 10.1016/j.jmmm.2012.05.058
141	0.141 Tb₅Ge₄		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pnm'a (62.444) (standard)	m'mm (8.3.26)	P. Schobinger-Papamantellos, Journal of Physics and Chemistry of Solids (1978) 39 197-205. DOI: 10.1016/0022-3697(78)90043-4
142	0.142 Fe₂TeO₆		0,0,0	P4₂/mnm (136) (standard)	(a,b,c;0,0,0)	P4₂/m'n'm' (136.503) (standard)	4/m'm'm' (15.7.59)	W. Kunnmann, S.L. Placa, L. Corliss, J. Hastings and E. Banks, Journal of Physics and Chemistry of Solids (1968) 29 1359-1364. DOI: 10.1016/0022-3697(68)90187
143	0.143 Cr₂TeO₆		0,0,0	P4₂/mnm (136) (standard)	(a,b,c;0,0,0)	Pn'nm (58.395) (b,-a,c;0,0,0)	m'mm (8.3.26)	W. Kunnmann, S.L. Placa, L. Corliss, J. Hastings and E. Banks, Journal of Physics and Chemistry of Solids (1968) 29 1359-1364. DOI: 10.1016/0022-3697(68)90187
144	0.144 Cr₂WO₆		0,0,0	P4₂/mnm (136) (standard)	(a,b,c;0,0,0)	Pn'nm (58.395) (b,-a,c;0,0,0)	m'mm (8.3.26)	W. Kunnmann, S.L. Placa, L. Corliss, J. Hastings and E. Banks, Journal of Physics and Chemistry of Solids (1968) 29 1359-1364. DOI: 10.1016/0022-3697(68)90187
145	0.145 Co₃TeO₆		0,0,0	C2/c (15) (standard)	(a,b,c;0,0,0)	C2'/c (15.87) (standard)	2'/m (5.3.14)	S. Ivanov, R. Tellgren, C. Ritter, P. Nordblad, R. Mathieu, G. Andre, N. Golubko, E. Politova and M. Weil, Materials Research Bulletin (2012) 47 63-72. DOI: 10.1016/j.materresbull.2011.10.003
146	0.146 EuZrO₃		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pnm'a (62.444) (standard)	m'mm (8.3.26)	M. Avdeev, B.J. Kennedy and T. Kolodiazhnyi, Journal of Physics: Condensed Matter (2014) 26 095401. DOI: 10.1088/0953-8984/26/9/095401
147	0.147 EuZrO₃		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pn'm'a' (62.449) (standard)	m'm'm' (8.5.28)	R. Saha, A. Sundaresan, M.K. Sanyal, C.N.R. Rao, F. Orlandi, P. Manuel and S. Langridge, Physical Review B (2016) 93. DOI: 10.1103/physrevb.93.014409
148	0.148 La₂LiRuO₆		0,0,0	P2₁/n (14) (a,b,a+c;0,0,0)	(a,b,c;0,0,0)	P2₁/c (14.75) (a,b,a+c;0,0,0)	2/m (5.1.12)	P.D. Battle, C.P. Grey, M. Hervieu, C. Martin, C.A. Moore and Y. Paik, Journal of Solid State Chemistry (2003) 175 20-26. DOI: 10.1016/s0022-4596(03)00081-1
149	0.149 Nd₃Ru₄Al₁₂		0,0,0	P6₃/mmc (194) (standard)	(a,b,c;0,0,0)	Cm'c'm (63.462) (a,a+2b,c;0,0,0)	m'm'm (8.4.27)	D.I. Gorbunov, M.S. Henriques, A.V. Andreev, V. Eigner, A. Gukasov, X. Fabreges, Y. Skourski, V. Petricek and J. Wosnitza, Physical Review B (2016) 93. DOI: 10.1103/physrevb.93.024407
150	0.150 NiS₂		0,0,0	Pa-3 (205) (standard)	(a,b,c;0,0,0)	Pa-3 (205.33) (standard)	m-3 (29.1.109)	S. Yano, D. Louca, J. Yang, U. Chatterjee, D.E. Bugaris, D.Y. Chung, L. Peng, M. Grayson and M.G. Kanatzidis, Physical Review B (2016) 93. DOI: 10.1103/physrevb.93.024409
151	0.151 Tm₂Mn₂O₇		0,0,0	Fd-3m (227) (standard)	(b/2-c/2,b/2+c/2,a;0,1/4,-1/4)	I4₁/am'd' (141.557) (standard)	4/mm'm' (15.6.58)	E. Pomjakushina, V. Pomjakushin, K. Rolfs, J. Karpinski and K. Conder, Inorganic Chemistry (2015) 54 9092-9097. DOI: 10.1021/acs.inorgchem.5b01498
152	0.152 LiFePO₄		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	P2₁/c' (14.78) (-b,-c,a;0,0,0)	2/m' (5.4.15)	R. Toft-Petersen, M. Reehuis, T.B.S. Jensen, N.H. Andersen, J. Li, M.D. Le, M. Laver, C. Niedermayer, B. Klemke, K. Lefmann and D. Vaknin, Physical Review B (2015) 92. DOI: 10.1103/physrevb.92.024404
153	0.153 Bi₂RuMnO₇		0,0,0	Fd-3m (227) (standard)	(a,b,c;0,0,0)	Fd'd'd (70.530) (a,c,-b;1/4,0,1/4)	m'm'm (8.4.27)	R. Martinez-Coronado, J. Alonso, V. Cascos and M. Fernandez-Diaz, Journal of Power Sources (2014) 247 876-882. DOI: 10.1016/j.jpowsour.2013.08.125
154	0.154 Er₂Ru₂O₇		0,0,0	Fd-3m (227) (standard)	(a,b,c;0,0,0)	I4₁'/am'd (141.554) (-1/2b+1/2c,1/2b+1/2c,-a;0,0,0)	4'/mm'm (15.4.56)	N. Taira, M. Wakeshima, Y. Hinatsu, A. Tobo and K. Ohoyama, Journal of Solid State Chemistry (2003) 176 165-169. DOI: 10.1016/s0022-4596(03)00384-0
155	0.155 CaMnGe₂O₆		0,0,0	C2/c (15) (standard)	(a,b,c;0,0,0)	P-1' (2.6) (1/2a+1/2b,-1/2a+1/2b,c;0,0,0)	-1' (2.3.5)	G.J. Redhammer, G. Roth, W. Treutmann, W. Paulus, G. Andre, C. Pietzonka and G. Amthauer, Journal of Solid State Chemistry (2008) 181 3163-3176. DOI: 10.1016/j.jssc.2008.08.014
156	0.156 CaMnGe₂O₆		0,0,0	C2/c (15) (standard)	(a,b,c;0,0,0)	C2'/c (15.87) (standard)	2'/m (5.3.14)	L. Ding, C.V. Colin, C. Darie, J. Robert, F. Gay and P. Bordet, Physical Review B (2016) 93. DOI: 10.1103/physrevb.93.064423
157	0.157 Yb₂Sn₂O₇		0,0,0	Fd-3m (227) (standard)	(a,b,c;0,0,0)	I4₁/am'd' (141.557) (-1/2a+1/2b,1/2a+1/2b,-c;0,0,0)	4/mm'm' (15.6.58)	A. Yaouanc, P.D. de Reotier, P. Bonville, J.A. Hodges, V. Glazkov, L. Keller, V. Sikolenko, M. Bartkowiak, A. Amato, C. Baines, P.J.C. King, P.C.M. Gubbens and A. Forget, Physical Review Letters (2013) 110. DOI: 10.1103/physrevlett.110.127207
158	0.158 Yb₂Ti₂O₇		0,0,0	Fd-3m (227) (standard)	(a,b,c;0,0,0)	I4₁/am'd' (141.557) (-1/2a+1/2b,1/2a+1/2b,-c;0,0,0)	4/mm'm' (15.6.58)	J. Gaudet, K.A. Ross, E. Kermarrec, N.P. Butch, G. Ehlers, H.A. Dabkowska and B.D. Gaulin, Physical Review B (2016) 93. DOI: 10.1103/physrevb.93.064406
159	0.159 DyCoO₃		0,0,0	Pbnm (62) (-b,c,-a;0,0,0)	(a,b,c;0,0,0)	Pn'm'a' (62.449) (-b,c,-a;0,0,0)	m'm'm' (8.5.28)	K. Knizek, Z. Jirak, P. Novak and C. de la Cruz, Solid State Sciences (2014) 28 26-30. DOI: 10.1016/j.solidstatesciences.2013.12.001
160	0.160 TbCoO₃		0,0,0	Pbnm (62) (-b,c,-a;0,0,0)	(a,b,c;0,0,0)	Pnm'a (62.444) (-b,c,-a;0,0,0)	m'mm (8.3.26)	K. Knizek, Z. Jirak, P. Novak and C. de la Cruz, Solid State Sciences (2014) 28 26-30. DOI: 10.1016/j.solidstatesciences.2013.12.001
161	0.161 CoSe₂O₅		0,0,0	Pbcn (60) ('a,b,c;0,0,0)	(a,b,c;0,0,0)	Pb'cn (60.419) (standard)	m'mm (8.3.26)	E.E. Rodriguez, H. Cao, R. Haiges and B.C. Melot, Journal of Solid State Chemistry (2016) 236 39-44. DOI: 10.1016/j.jssc.2015.09.006
162	0.162 NdCrTiO₅		0,0,0	Pbam (55) (standard)	(a,b,c;0,0,0)	Pbam' (55.356) (standard)	m'mm (8.3.26)	G. Buisson, Journal of Physics and Chemistry of Solids (1970) 31 1171-1183. DOI: 10.1016/0022-3697(70)90326-4
163	0.163 MnPS₃		0,0,0	C2/m (12) (standard)	(a,b,c;0,0,0)	C2'/m (12.60) (standard)	2'/m (5.3.14)	E. Ressouche, M. Loire, V. Simonet, R. Ballou, A. Stunault and A. Wildes, Physical Review B (2010) 82. DOI: 10.1103/physrevb.82.100408
164	0.164 Y₂MnCoO₆		0,0,0	P2₁/c (14) (a,b,a+c;0,0,0)	(a,b,c;0,0,0)	P2₁'/c' (14.79) (a,b,a+c;0,0,0)	2'/m' (5.5.16)	J. Blasco, J. Garcia, G. Subias, J. Stankiewicz, J.A. Rodriguez-Velamazan, C. Ritter, J.L. Garcia-Munoz and F. Fauth, Physical Review B (2016) 93. DOI: 10.1103/physrevb.93.214401
165	0.165 SrMn(VO₄)(OH)		0,0,0	P2₁2₁2₁ (19) (standard)	(a,b,c;0,0,0)	P2₁ (4.7) (-b,a,c;0,1/4,0)	2 (3.1.6)	L.D. Sanjeewa, V.O. Garlea, M.A. McGuire, C.D. McMillen, H. Cao and J.W. Kolis, Physical Review B (2016) 93. DOI: 10.1103/physrevb.93.224407
166	0.166 Ce₂PdGe₃		0,0,0	P4₂/mmc (131) (standard)	(a,b,c;0,0,0)	P4₂'/m'm'c (131.440) (standard)	4'/m'm'm (15.5.57)	A. Bhattacharyya, C. Ritter, D.T. Adroja, F.C. Coomer and A.M. Strydom, Physical Review B (2016) 94. DOI: 10.1103/physrevb.94.014418
167	0.167 Nd₃Sb₃Mg₂O₁₄		0,0,0	R-3m (166) (standard)	(a,b,c;0,0,0)	R-3m' (166.101) (standard)	-3m' (20.5.75)	A. Scheie, M. Sanders, J. Krizan, Y. Qiu, R.J. Cava and C. Broholm, Physical Review B (2016) 93. DOI: 10.1103/physrevb.93.180407
168	0.168 NH₄Fe₂F₆		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pnma (62.441) (standard)	mmm (8.1.24)	G. Ferey, M. Leblanc, R. De Pape, J. Pannetier, Solid State Communications (1985) 53 559 - 563 DOI: 10.1016/0038-1098(85)90192-9
169	0.169 U₃As₄		0,0,0	I-43d (220) (standard)	(a,b,c;0,0,0)	R3c' (161.71) (a-c,-a+b,1/2a+1/2b+1/2c;0,0,0)	3m' (19.3.70)	P. Burlet, J. Rossat-Mignod, R. Troc and Z. Henkie, Solid State Communications (1981) 39 745-749. DOI: 10.1016/0038-1098(81)90449
170	0.170 U₃P₄		0,0,0	I-43d (220) (standard)	(a,b,c;0,0,0)	R3c' (161.71) (a-c,-a+b,1/2a+1/2b+1/2c;0,0,0)	3m' (19.3.70)	P. Burlet, J. Rossat-Mignod, R. Troc and Z. Henkie, Solid State Communications (1981) 39 745-749. DOI: 10.1016/0038-1098(81)90449
171	0.171 DyScO₃		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pn'm'a' (62.449) (standard)	m'm'm' (8.5.28)	L.S. Wu, S.E. Nikitin, M. Frontzek, A.I. Kolesnikov, G. Ehlers, M.D. Lumsden, K.A. Shaykhutdinov, E.-J. Guo, A.T. Savici, Z. Gai, A.S. Sefat and A. Podlesnyak, Physical Review B (2017) 96 144407. DOI: 10.1103/physrevb.96.144407
172	0.172 Y₃Co_3.25Al_0.75		0,0,0	Cmcm (63) (standard)	(a,b,c;0,0,0)	Cm'cm' (63.464) (standard)	m'm'm (8.4.27)	A. Morozkin, A. Garshev, A. Knotko, V. Yapaskurt, O. Isnard, J. Yao, R. Nirmala, S. Quezado and S. Malik, Journal of Solid State Chemistry (2017) 251 33-42. DOI: 10.1016/j.jssc.2017.04.009
173	0.173 Pr₃Ru₄Al₁₂		0,0,0	P6₃/mmc (194) (standard)	(a,b,c;0,0,0)	Cm'c'm (63.462) (a,a+2b,c;0,0,0)	m'm'm (8.4.27)	M.S. Henriques, D.I. Gorbunov, A.V. Andreev, X. Fabreges, A. Gukasov, M. Uhlarz, V. Petricek, B. Ouladdiaf and J. Wosnitza, Physical Review B (2018) 97 014431. DOI: 10.1103/physrevb.97.014431
174	0.174 Pr₃Ru₄Al₁₂		0,0,0	P6₃/mmc (194) (standard)	(a,b,c;0,0,0)	C2'/c' (15.89) (a+b,-a+b,c;0,0,0)	2'/m' (5.5.16)	M.S. Henriques, D.I. Gorbunov, A.V. Andreev, X. Fabreges, A. Gukasov, M. Uhlarz, V. Petricek, B. Ouladdiaf and J. Wosnitza, Physical Review B (2018) 97 014431. DOI: 10.1103/physrevb.97.014431
175	0.175 Ca₂CoSi₂O₇		0,0,0	P-42₁m (113) (standard)	(3a,3b,c;0,0,0)	P2₁2₁'2' (18.19) (standard)	2'2'2 (6.3.19)	A. Sazonov, V. Hutanu, M. Meven, G. Roth, H. Murakawa, Y. Tokura, V.K. Guduru, L.C.J.M. Peters, U. Zeitler, L.F. Kiss, D. Szaller, B. Nafradi and I. Kezsmarki, Physical Review B (2017) 95 174431. DOI: 10.1103/physrevb.95.174431
176	0.176 Mn₃Ti₂Te₆		0,0,0	P-31c (163) (standard)	(a,b,c;0,0,0)	C2'/c' (15.89) (a,a+2b,c;0,0,0)	2'/m' (5.5.16)	A.F. May, Y. Liu, S. Calder, D.S. Parker, T. Pandey, E. Cakmak, H. Cao, J. Yan and M.A. McGuire, Physical Review B (2017) 95 174440. DOI: 10.1103/physrevb.95.174440
177	0.177 Mn₃GaN		0,0,0	Pm-3m (221) (standard)	(a,b,c;0,0,0)	R-3m (166.97) (a-b,b-c,a+b+c;0,0,0)	-3m (20.1.71)	D. Fruchart and E.F. Bertaut, Journal of the Physical Society of Japan (1978) 44 781-791. DOI: 10.1143/jpsj.44.781
178	0.178 CoF₂		0,0,0	P4₂/mnm (136) (standard)	(a,b,c;0,0,0)	P4₂'/mnm' (136.499) (standard)	4'/mm'm (15.4.56)	W. Jauch, M. Reehuis and A.J. Schultz, Acta Crystallographica Section A Foundations of Crystallography (2003) 60 51-57. DOI: 10.1107/s0108767303022803
179	0.179 FeCl₅D₂O(ND₄)₂		0,0,0	P2₁/c (14) (b,c,a;0,0,0)	(a,b,c;0,0,0)	P2₁' (4.9) (b,c,a;1/4,0,0)	2' (3.3.8)	J.A. Rodriguez-Velamazan, O. Fabelo, J. Campo, Á. Millan, J. Rodriguez-Carvajal and L.C. Chapon, Physical Review B (2017) 95 174439. DOI: 10.1103/physrevb.95.174439
180	0.180 MnPSe₃		0,0,0	R-3 (148) (standard)	(a,b,c;0,0,0)	P-1' (2.6) (2/3a+1/3b+1/3c,1/3a+2/3b-1/3c,-1/3a+1/3b+1/3c;0,0,0)	-1' (2.3.5)	A. Wiedenmann, J. Rossat-Mignod, A. Louisy, R. Brec and J. Rouxel, Solid State Communications (1981) 40 1067-1072. DOI: 10.1016/0038-1098(81)90253-2
181	0.181 Nd₁₅Ge₉C_0.39		0,0,0	P6₃mc (186) (standard)	(a,b,c;0,0,0)	P6₃m'c' (186.207) (standard)	6m'm' (25.4.94)	S. Tence, O. Isnard, F. Wrubl and P. Manfrinetti, Journal of Alloys and Compounds (2014) 594 148-152. DOI: 10.1016/j.jallcom.2014.01.115
182	0.182 KCrF₄		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pn'ma (62.443) (standard)	m'mm (8.3.26)	P. Lacorre, M. Leblanc, J. Pannetier and G. Ferey, Journal of Magnetism and Magnetic Materials (1987) 66 219-224. DOI: 10.1016/0304-8853(87)90294-0
183	0.183 KMnFeF₆		0,0,0	P4₂bc (106) (standard)	(a,b,c;0,0,0)	Pb'a2' (32.137) (-b,a,c;0,0,0)	m'm2' (7.3.22)	P. Lacorre, J. Pannetier and G. Ferey, Journal of Magnetism and Magnetic Materials (1991) 94 331-336. DOI: 10.1016/0304-8853(91)90094-q
184	0.184 Nd₅Si₄		0,0,0	P4₁2₁2 (92) (standard)	(a,b,c;0,0,0)	P4₁2₁'2' (92.114) (standard)	42'2' (12.4.43)	J.M. Cadogan, D.H. Ryan, Z. Altounian, H.B. Wang and I.P. Swainson, Journal of Physics: Condensed Matter (2002) 14 7191-7200. DOI: 10.1088/0953-8984/14/30/309
185	0.185 Nd₅Ge₄		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pnm'a' (62.447) (standard)	m'm'm (8.4.27)	J.M. Cadogan, D.H. Ryan, Z. Altounian, H.B. Wang and I.P. Swainson, Journal of Physics: Condensed Matter (2002) 14 7191-7200. DOI: 10.1088/0953-8984/14/30/309
186	0.186 CeMnAsO		0,0,0	P4/nmm (129) (standard)	(a,b,c;0,0,0)	P4'/n'm'm (129.416) (standard)	4'/m'm'm (15.5.57)	Q. Zhang, W. Tian, S.G. Peterson, K.W. Dennis and D. Vaknin, Physical Review B (2015) 91 064418. DOI: 10.1103/physrevb.91.064418
187	0.187 CeMnAsO		0,0,0	P4/nmm (129) (standard)	(a,b,c;0,0,0)	Pm'mn (59.407) (b,-a,c;0,0,0)	m'mm (8.3.26)	Q. Zhang, W. Tian, S.G. Peterson, K.W. Dennis and D. Vaknin, Physical Review B (2015) 91 064418. DOI: 10.1103/physrevb.91.064418
188	0.188 CeMnAsO		0,0,0	P4/nmm (129) (standard)	(a,b,c;0,0,0)	P2'/c (13.67) (a,c,a-b;0,0,0)	2'/m (5.3.14)	Q. Zhang, W. Tian, S.G. Peterson, K.W. Dennis and D. Vaknin, Physical Review B (2015) 91 064418. DOI: 10.1103/physrevb.91.064418
189	0.189 CeMn₂Ge₄O₁₂		0,0,0	P4/nbm (125) (standard)	(a,b,c;0,0,0)	P4'/nbm' (125.367) (standard)	4'/mm'm (15.4.56)	D. Xu, M. Avdeev, P.D. Battle and X.-Q. Liu, Inorganic Chemistry (2017) 56 2750-2762. DOI: 10.1021/acs.inorgchem.6b02905
190	0.190 CeMnCoGe₄O₁₂		0,0,0	P4/nbm (125) (standard)	(a,b,c;0,0,0)	Pb'an' (50.282) (standard)	m'm'm (8.4.27)	D. Xu, M. Avdeev, P.D. Battle and X.-Q. Liu, Inorganic Chemistry (2017) 56 2750-2762. DOI: 10.1021/acs.inorgchem.6b02905
191	0.191 BaCuF₄		0,0,0	Cmc2₁ (36) (standard)	(a,b,c;0,0,0)	Cm'c'2₁ (36.176) (standard)	m'm'2 (7.4.23)	A. Garcia-Castro, W. Ibarra-Hernandez, E. Bousquet and A.H. Romero, Physical Review Letters (2018) 121 117601. DOI: 10.1103/physrevlett.121.117601
192	0.192 RbFe₂F₆		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pnma (62.441) (standard)	mmm (8.1.24)	S.W. Kim, S.-H. Kim, P.S. Halasyamani, M.A. Green, K.P. Bhatti, C. Leighton, H. Das and C.J. Fennie, Chem. Sci. (2012) 3 741-751. DOI: 10.1039/c2sc00765g
193	0.193 LiCoPO₄		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pnma' (62.445) (standard)	m'mm (8.3.26)	R. Santoro, D. Segal and R. Newnham, Journal of Physics and Chemistry of Solids (1966) 27 1192-1193. DOI: 10.1016/0022-3697(66)90097-7
194	0.194 UPt₂Si₂		0,0,0	P4/nmm (129) (standard)	(a,b,c;0,0,0)	P4/n'm'm' (129.419) (standard)	4/m'm'm' (15.7.59)	R.A. Steeman, E. Frikkee, S.A.M. Mentink, A.A. Menovsky, G.J. Nieuwenhuys and J.A. Mydosh, Journal of Physics: Condensed Matter (1990) 2 4059-4066. DOI: 10.1088/0953-8984/2/18/003
195	0.195 Sr₂Ir_0.92Sn_0.08O₄		0,0,0	I4₁/acd (142) (a,b,c;0,-1/4,1/8)	(a,b,c;0,0,0)	Ib'c'a (73.551) (c,b,-a;1/4,0,3/8)	m'm'm (8.4.27)	A.F. May, H. Cao and S. Calder, Physical Review Materials (2018) 2 094406. DOI: 10.1103/physrevmaterials.2.094406
196	0.196 Co₄Nb₂O₉		0,0,0	P-3c1 (165) (standard)	(a,b,c;0,0,0)	C2/c' (15.88) (2a+b,b,c;0,0,0)	2/m' (5.4.15)	N.D. Khanh, N. Abe, H. Sagayama, A. Nakao, T. Hanashima, R. Kiyanagi, Y. Tokunaga and T. Arima, Physical Review B (2016) 93 075117. DOI: 10.1103/physrevb.93.075117
197	0.197 Co₄Nb₂O₉		0,0,0	P-3c1 (165) (standard)	(a,b,c;0,0,0)	C2/c' (15.88) (2a+b,b,c;0,0,0)	2/m' (5.4.15)	G. Deng, Y. Cao, W. Ren, S. Cao, A.J. Studer, N. Gauthier, M. Kenzelmann, G. Davidson, K.C. Rule, J.S. Gardner, P. Imperia, C. Ulrich and G.J. McIntyre, Physical Review B (2018) 97 085154. DOI: 10.1103/physrevb.97.085154
198	0.198 GdVO₄		0,0,0	I4₁/amd (141) (a,b,c;0,-1/4,1/8)	(a,b,c;0,0,0)	I4₁'/a'm'd (141.556) (a,b,c;0,-1/4,1/8)	4'/m'm'm (15.5.57)	E. Palacios, M. Evangelisti, R. Saez-Puche, A.J.D. Santos-Garcia, F. Fernandez-Martinez, C. Cascales, M. Castro, R. Burriel, O. Fabelo and J.A. Rodriguez-Velamazan, Physical Review B (2018) 97 214401. DOI: 10.1103/physrevb.97.214401
199	0.199 Mn₃Sn		0,0,0	P6₃/mmc (194) (standard)	(a,b,c;0,0,0)	Cmc'm' (63.463) (-b,2a+b,c;0,0,0)	m'm'm (8.4.27)	P.J. Brown, V. Nunez, F. Tasset, J.B. Forsyth and P. Radhakrishna, Journal of Physics: Condensed Matter (1990) 2 9409-9422. DOI: 10.1088/0953-8984/2/47/015
200	0.200 Mn₃Sn		0,0,0	P6₃/mmc (194) (standard)	(a,b,c;0,0,0)	Cm'cm' (63.464) (-b,2a+b,c;0,0,0)	m'm'm (8.4.27)	P.J. Brown, V. Nunez, F. Tasset, J.B. Forsyth and P. Radhakrishna, Journal of Physics: Condensed Matter (1990) 2 9409-9422. DOI: 10.1088/0953-8984/2/47/015
201	0.201 Ca₂PrCr₂NbO₉		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pn'm'a (62.446) (standard)	m'm'm (8.4.27)	E.C. Hunter, S. Mousdale, P.D. Battle and M. Avdeev, Journal of Solid State Chemistry (2019) 269 80-86. DOI: 10.1016/j.jssc.2018.09.012
202	0.202 Ca₂PrCr₂TaO₉		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pn'm'a (62.446) (standard)	m'm'm (8.4.27)	E.C. Hunter, S. Mousdale, P.D. Battle and M. Avdeev, Journal of Solid State Chemistry (2019) 269 80-86. DOI: 10.1016/j.jssc.2018.09.012
203	0.203 Mn₃Ge		0,0,0	P6₃/mmc (194) (standard)	(a,b,c;0,0,0)	C2'/m' (12.62) (a+2b,-a,c;0,0,0)	2'/m' (5.5.16)	A.S. Sukhanov, S. Singh, L. Caron, T. Hansen, A. Hoser, V. Kumar, H. Borrmann, A. Fitch, P. Devi, K. Manna, C. Felser and D.S. Inosov, Physical Review B (2018) 97 214402. DOI: 10.1103/physrevb.97.214402
204	0.204 Ca₂MnReO₆		0,0,0	P2₁/c (14) (a,b,a+c;0,0,0)	(a,b,c;0,0,0)	P2₁/c (14.75) (a,b,a+c;0,0,0)	2/m (5.1.12)	A.S. Cavichini, M.T. Orlando, J.B. Depianti, J.L. Passamai, F. Damay, F. Porcher and E. Granado, Physical Review B (2018) 97 054431. DOI: 10.1103/physrevb.97.054431
205	0.205 Sr₂MnReO₆		0,0,0	P2₁/c (14) (a,b,a+c;0,0,0)	(a,b,c;0,0,0)	P2₁'/c' (14.79) (a,b,a+c;0,0,0)	2'/m' (5.5.16)	G. Popov, M.V. Lobanov, E.V. Tsiper, M. Greenblatt, E. ad N Caspi, A. Borissov, V. Kiryukhin and J.W. Lynn, Journal of Physics: Condensed Matter (2003) 16 135-145. DOI: 10.1088/0953-8984/16/1/013
206	0.206 Ca₂Fe_0.875Cr_0.125GaO₅		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pn'm'a (62.446) (standard)	m'm'm (8.4.27)	R. Dhal, P.N. Lekshmi, R. Singh, A. Das, A. Sinha and P. Santhosh, Journal of Solid State Chemistry (2018) 265 417-423. DOI: 10.1016/j.jssc.2018.06.013
207	0.207 TlFe_1.6Se₂		0,0,0	I4/m (87) (standard)	(a,b,c;0,0,0)	I4/m (87.75) (standard)	4/m (11.1.35)	A.F. May, M.A. McGuire, H. Cao, I. Sergueev, C. Cantoni, B.C. Chakoumakos, D.S. Parker and B.C. Sales, Physical Review Letters (2012) 109 077003. DOI: 10.1103/physrevlett.109.077003
208	0.208 TlFe_1.6Se₂		0,0,0	I4/m (87) (standard)	(a,b,c;0,0,0)	C2'/m (12.60) (a+b,c,-b;0,0,0)	2'/m (5.3.14)	A.F. May, M.A. McGuire, H. Cao, I. Sergueev, C. Cantoni, B.C. Chakoumakos, D.S. Parker and B.C. Sales, Physical Review Letters (2012) 109 077003. DOI: 10.1103/physrevlett.109.077003
209	0.209 TlFe_1.6Se₂		0,0,0	I4/m (87) (standard)	(a,b,c;0,0,0)	I4/m' (87.78) (standard)	4/m' (11.4.38)	A.F. May, M.A. McGuire, H. Cao, I. Sergueev, C. Cantoni, B.C. Chakoumakos, D.S. Parker and B.C. Sales, Physical Review Letters (2012) 109 077003. DOI: 10.1103/physrevlett.109.077003
210	0.210 Sr₂CoOsO₆		0,0,0	B2/n (15) (a,c,-b;1/4,0,1/4)	(a,b,c;0,0,0)	C2/c (15.85) (a,c,-b;1/4,0,1/4)	2/m (5.1.12)	B. Yan, A.K. Paul, S. Kanungo, M. Reehuis, A. Hoser, D.M. Tobbens, W. Schnelle, R.C. Williams, T. Lancaster, F. Xiao, J.S. Moller, S.J. Blundell, W. Hayes, C. Felser and M. Jansen, Physical Review Letters (2014) 112 147202. DOI: 10.1103/physrevlett.112.147202
211	0.211 Ca₂MnO₄		0,0,0	I4₁/acd (142) (standard)	(a,b,c;0,0,0)	I4₁'/a'cd' (142.568) (standard)	4'/m'm'm (15.5.57)	C. Autret, C. Martin, M. Hervieu, R. Retoux, B. Raveau, G. Andre and F. Bouree, Journal of Solid State Chemistry (2004) 177 2044-2052. DOI: 10.1016/j.jssc.2004.02.012
212	0.212 Sr₂Mn₃As₂O₂		0,0,0	I4/mmm (139) (standard)	(a,b,c;0,0,0)	I4'/m'm'm (139.536) (standard)	4'/m'm'm (15.5.57)	S.L. Brock, N. Raju, J. Greedan and S.M. Kauzlarich, Journal of Alloys and Compounds (1996) 237 9-19. DOI: 10.1016/0925-8388(95)02066-7
213	0.213 Sr₂Mn₂CuAs₂O₂		0,0,0	I4/mmm (139) (standard)	(a,b,c;0,0,0)	I4/mm'm' (139.537) (standard)	4/mm'm' (15.6.58)	R. Nath, V.O. Garlea, A.I. Goldman and D.C. Johnston, Physical Review B (2010) 81 224513. DOI: 10.1103/physrevb.81.224513
214	0.214 FePbBiO₄		0,0,0	P4₂/mbc (135) (standard)	(a,b,c;0,0,0)	Pmc2₁ (26.66) (-c,-a,b;1/4,0,0)	mm2 (7.1.20)	B.P. de Laune, F.J. Berry, J.F. Marco, S.L. Horswell and C. Greaves, Journal of Materials Chemistry C (2016) 4 5320-5325. DOI: 10.1039/c6tc01034b
215	0.215 BaNi₂P₂O₈		0,0,0	R-3 (148) (standard)	(a,b,c;0,0,0)	P-1' (2.6) (2/3a+1/3b+1/3c,1/3a+2/3b-1/3c,-1/3a+1/3b+1/3c;0,0,0)	-1' (2.3.5)	L. Regnault, J. Henry, J. Rossat-Mignod and A.D. Combarieu, Journal of Magnetism and Magnetic Materials (1980) 15-18 1021-1022. DOI: 10.1016/0304-8853(80)90869-0
216	0.216 SrEr₂O₄		0,0,0	Pnma (62) (a,c,-b;0,0,0)	(a,b,c;0,0,0)	Pnma' (62.445) (a,c,-b;0,0,0)	m'mm (8.3.26)	O.A. Petrenko, G. Balakrishnan, N.R. Wilson, S. de Brion, E. Suard and L.C. Chapon, Physical Review B (2008) 78 184410. DOI: 10.1103/physrevb.78.184410
217	0.217 LiCrGe₂O₆		0,0,0	P2₁/c (14) (standard)	(a,b,c;0,0,0)	P2₁'/c (14.77) (standard)	2'/m (5.3.14)	G. Nenert, M. Isobe, I. Kim, C. Ritter, C.V. Colin, A.N. Vasiliev, K.H. Kim and Y. Ueda, Physical Review B (2010) 82 024429. DOI: 10.1103/physrevb.82.024429
218	0.218 Co₂SiO₄		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pnma (62.441) (standard)	mmm (8.1.24)	W. Lottermoser and H. Fuess, Physica Status Solidi (a) (1988) 109 589-595. DOI: 10.1002/pssa.2211090226
219	0.219 Co₂SiO₄		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pnma (62.441) (standard)	mmm (8.1.24)	A. Sazonov, M. Meven, V. Hutanu, G. Heger, T. Hansen and A. Gukasov, Acta Crystallographica Section B Structural Science (2009) 65 664-675. DOI: 10.1107/s0108768109042499
220	0.220 Mn₂SiO₄		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pn'm'a (62.446) (standard)	m'm'm (8.4.27)	W. Lottermoser and H. Fuess, Physica Status Solidi (a) (1988) 109 589-595. DOI: 10.1002/pssa.2211090226
221	0.221 Fe₂SiO₄		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pnma (62.441) (standard)	mmm (8.1.24)	W. Lottermoser, R. Muller and H. Fuess, Journal of Magnetism and Magnetic Materials (1986) 54-57 1005-1006. DOI: 10.1016/0304-8853(86)90355-0
222	0.222 CuMnAs		0,0,0	P4/nmm (129) (a,b,c;-1/4,1/4,0)	(a,b,c;0,0,0)	Pm'mn (59.407) (a,b,c;-1/4,1/4,0)	m'mm (8.3.26)	P. Wadley, V. Hills, M.R. Shahedkhah, K.W. Edmonds, R.P. Campion, V. Novak, B. Ouladdiaf, D. Khalyavin, S. Langridge, V. Saidl, P. Nemec, A.W. Rushforth, B.L. Gallagher, S.S. Dhesi, F. Maccherozzi, J. Železny and T. Jungwirth, Scientific Reports (2015) 5. DOI: 10.1038/srep17079
223	0.223 Cu_0.95MnAs		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pn'ma (62.443) (standard)	m'mm (8.3.26)	E. Emmanouilidou, H. Cao, P. Tang, X. Gui, C. Hu, B. Shen, J. Wu, S.-C. Zhang, W. Xie and N. Ni, Physical Review B (2017) 96 224405. DOI: 10.1103/physrevb.96.224405
224	0.224 Nd_0.5Tb_0.5Co₂		0,0,0	Fd-3m (227) (standard)	(1/2a-1/2c,-1/2b+1/2c,a+b+c;0,0,0)	C2'/m' (12.62) (1/3a+2/3b+2/3c,-a,-1/3a-2/3b+1/3c;0,0,0)	2'/m' (5.5.16)	Y.G. Xiao, Q. Huang, Z.W. Ouyang, F.W. Wang, J.W. Lynn, J.K. Liang and G.H. Rao, Physical Review B (2006) 73 064413. DOI: 10.1103/physrevb.73.064413
225	0.225 Nd_0.5Tb_0.5Co₂		0,0,0	Fd-3m (227) (standard)	(1/2a-1/2c,-1/2b+1/2c,a+b+c;0,0,0)	C2'/m' (12.62) (1/3a+2/3b+2/3c,-a,-1/3a-2/3b+1/3c;0,0,0)	2'/m' (5.5.16)	Y.G. Xiao, Q. Huang, Z.W. Ouyang, F.W. Wang, J.W. Lynn, J.K. Liang and G.H. Rao, Physical Review B (2006) 73 064413. DOI: 10.1103/physrevb.73.064413
226	0.226 NdCo₂		0,0,0	Fd-3m (227) (standard)	(a,b,c;0,0,0)	C2'/c' (15.89) (-c,-a,1/2b+1/2c;0,0,0)	2'/m' (5.5.16)	Z.W. Ouyang, F.W. Wang, Q. Huang, W.F. Liu, Y.G. Xiao, J.W. Lynn, J.K. Liang and G.H. Rao, Physical Review B (2005) 71 064405. DOI: 10.1103/physrevb.71.064405
227	0.227 NdCo₂		0,0,0	Fd-3m (227) (standard)	(1/2a-1/2b,1/2a+1/2b,c;1/4,1/4,0)	I4₁/am'd' (141.557) (standard)	4/mm'm' (15.6.58)	Z.W. Ouyang, F.W. Wang, Q. Huang, W.F. Liu, Y.G. Xiao, J.W. Lynn, J.K. Liang and G.H. Rao, Physical Review B (2005) 71 064405. DOI: 10.1103/physrevb.71.064405
228	0.228 TbCo₂		0,0,0	Fd-3m (227) (standard)	(1/2a-1/2c,-1/2a+1/2b,a+b+c;0,0,0)	R-3m' (166.101) (standard)	-3m' (20.5.75)	Z. Ouyang, F. Wang, Q. Hang, W. Liu, G. Liu, J. Lynn, J. Liang and G. Rao, Journal of Alloys and Compounds (2005) 390 21-25. DOI: 10.1016/j.jallcom.2004.08.028
229	0.229 Ba₂MnSi₂O₇		0,0,0	P-42₁m (113) (standard)	(a,b,c;0,0,0)	P-42₁m (113.267) (standard)	-42m (14.1.48)	M. Sale, Q. Xia, M. Avdeev and C.D. Ling, Inorganic Chemistry (2019) 58 4164-4172. DOI: 10.1021/acs.inorgchem.8b03195
230	0.230 K₂CoP₂O₇		0,0,0	P4₂/mnm (136) (standard)	(a,b,c;0,0,0)	Pn'nm (58.395) (-b,a,c;0,0,0)	m'mm (8.3.26)	M. Sale, M. Avdeev, Z. Mohamed, C.D. Ling and P. Barpanda, Dalton Transactions (2017) 46 6409-6416. DOI: 10.1039/c7dt00978j
231	0.231 TmMn₃O₆		0,0,0	Pmmn (59) (standard)	(a,b,c;0,0,0)	Pmm'n' (59.410) (-b,a,c;0,0,0)	m'm'm (8.4.27)	A.M. Vibhakar, D.D. Khalyavin, P. Manuel, L. Zhang, K. Yamaura, P.G. Radaelli, A.A. Belik and R.D. Johnson, Physical Review B (2019) 99 104424. DOI: 10.1103/physrevb.99.104424
232	0.232 TmMn₃O₆		0,0,0	Pmmn (59) (standard)	(a,b,c;0,0,0)	Pm'm'n (59.409) (standard)	m'm'm (8.4.27)	A.M. Vibhakar, D.D. Khalyavin, P. Manuel, L. Zhang, K. Yamaura, P.G. Radaelli, A.A. Belik and R.D. Johnson, Physical Review B (2019) 99 104424. DOI: 10.1103/physrevb.99.104424
233	0.233 Mn₂FeSbO₆		0,0,0	R-3 (148) (standard)	(a,b,c;0,0,0)	P-1 (2.4) (2/3a+1/3b+1/3c,1/3a+2/3b-1/3c,-1/3a+1/3b+1/3c;0,0,0)	-1 (2.1.3)	A.J. Dos santos-Garcia, E. Solana-Madruga, C. Ritter, A. Andrada-Chacon, J. Sanchez-Benitez, F.J. Mompean, M. Garcia-Hernandez, R. Saez-Puche and R. Schmidt, Angewandte Chemie International Edition (2017) 56 4438-4442. DOI: 10.1002/anie.201609762
234	0.234 MnLaMnSbO₆		0,0,0	P4₂/n (86) (standard)	(a,b,c;0,0,0)	P2'/c' (13.69) (a,c,a-b;0,0,0)	2'/m' (5.5.16)	E. Solana-Madruga, Á.M. Arevalo-Lopez, A.J.D. santos-Garcia, C. Ritter, C. Cascales, R. Saez-Puche and J.P. Attfield, Physical Review B (2018) 97 134408. DOI: 10.1103/physrevb.97.134408
235	0.235 MnPrMnSbO₆		0,0,0	P4₂/n (86) (standard)	(a,b,c;0,0,0)	P4₂/n (86.67) (standard)	4/m (11.1.35)	E. Solana-Madruga, Á.M. Arevalo-Lopez, A.J.D. santos-Garcia, C. Ritter, C. Cascales, R. Saez-Puche and J.P. Attfield, Physical Review B (2018) 97 134408. DOI: 10.1103/physrevb.97.134408
236	0.236 CaFe₄Al₈		0,0,0	I4/mmm (139) (standard)	(a,b,c;0,0,0)	I4'/mmm' (139.535) (standard)	4'/mm'm (15.4.56)	V. Gvozdetskyi, A. Senyshyn, R. Gladyshevskii, V. Hlukhyy, Inorg. Chem. (2018) 57 5820 - 5829 DOI: 10.1021/acs.inorgchem.8b00208
237	0.237 Er₂Sn₂O₇		0,0,0	Fd-3m (227) (standard)	(a,b,c;0,0,0)	I4₁'/amd' (141.555) (1/2a-1/2b,1/2a+1/2b,c;1/4,1/4,0)	4'/mm'm (15.4.56)	S. Petit, E. Lhotel, F. Damay, P. Boutrouille, A. Forget and D. Colson, Physical Review Letters (2017) 119 187202. DOI: 10.1103/physrevlett.119.187202
238	0.238 Er₂Pt₂O₇		0,0,0	Fd-3m (227) (standard)	(a,b,c;0,0,0)	I4₁'/amd' (141.555) (1/2a-1/2b,1/2a+1/2b,c;1/4,1/4,0)	4'/mm'm (15.4.56)	A. Hallas, J. Gaudet, N. Butch, G. Xu, M. Tachibana, C. Wiebe, G. Luke and B. Gaulin, Physical Review Letters (2017) 119 187201. DOI: 10.1103/physrevlett.119.187201
239	0.239 Ca₃LiRuO₆		0,0,0	R-3c (167) (standard)	(a,b,c;0,0,0)	C2'/c' (15.89) (1/3a+2/3b+2/3c,-a,-1/3a-2/3b+1/3c;0,1/2,0)	2'/m' (5.5.16)	S. Calder, D.J. Singh, V.O. Garlea, M.D. Lumsden, Y.G. Shi, K. Yamaura and A.D. Christianson, Physical Review B (2017) 96 184426. DOI: 10.1103/physrevb.96.184426
240	0.240 Er₂Cu₂O₅		0,0,0	Pna2₁ (33) (standard)	(a,b,c;0,0,0)	Pna2₁ (33.144) (standard)	mm2 (7.1.20)	J.L. Garcia-Muoz, J. Rodriguez-Carvajal, X. Obradors, M. Vallet-Reg, J. Gonzalez-Calbet and M. Parras, Physical Review B (1991) 44 4716-4719. DOI: 10.1103/physrevb.44.4716
241	0.241 Y₂Cu₂O₅		0,0,0	Pna2₁ (33) (standard)	(a,b,c;0,0,0)	Pna2₁ (33.144) (standard)	mm2 (7.1.20)	J.L. Garcia-Muoz, J. Rodriguez-Carvajal, X. Obradors, M. Vallet-Reg, J. Gonzalez-Calbet and M. Parras, Physical Review B (1991) 44 4716-4719. DOI: 10.1103/physrevb.44.4716
242	0.242 Tm₂Cu₂O₅		0,0,0	Pna2₁ (33) (standard)	(a,b,c;0,0,0)	Pn'a'2₁ (33.148) (standard)	m'm'2 (7.4.23)	J.L. Garcia-Muoz, J. Rodriguez-Carvajal, X. Obradors, M. Vallet-Reg, J. Gonzalez-Calbet and M. Parras, Physical Review B (1991) 44 4716-4719. DOI: 10.1103/physrevb.44.4716
243	0.243 Li₂Fe(SO₄)₂		0,0,0	Pbca (61) (standard)	(a,b,c;0,0,0)	P2₁'/c (14.77) (-b,-c,a;0,0,0)	2'/m (5.3.14)	L. Lander, M. Reynaud, J. Rodriguez-Carvajal, J.-M. Tarascon and G. Rousse, Inorganic Chemistry (2016) 55 11760-11769. DOI: 10.1021/acs.inorgchem.6b01844
244	0.244 Li₂Co(SO₄)₂		0,0,0	Pbca (61) (standard)	(a,b,c;0,0,0)	Pb'c'a' (61.437) (standard)	m'm'm' (8.5.28)	L. Lander, M. Reynaud, J. Rodriguez-Carvajal, J.-M. Tarascon and G. Rousse, Inorganic Chemistry (2016) 55 11760-11769. DOI: 10.1021/acs.inorgchem.6b01844
245	0.245 Li_1.5Fe(SO₄)₂		0,0,0	Pbca (61) (standard)	(a,b,c;0,0,0)	P2₁'/c (14.77) (-b,-c,a;0,0,0)	2'/m (5.3.14)	L. Lander, M. Reynaud, J. Rodriguez-Carvajal, J.-M. Tarascon and G. Rousse, Inorganic Chemistry (2016) 55 11760-11769. DOI: 10.1021/acs.inorgchem.6b01844
246	0.246 LiFe(SO₄)₂		0,0,0	Pbca (61) (standard)	(a,b,c;0,0,0)	Pb'c'a' (61.437) (standard)	m'm'm' (8.5.28)	L. Lander, M. Reynaud, J. Rodriguez-Carvajal, J.-M. Tarascon and G. Rousse, Inorganic Chemistry (2016) 55 11760-11769. DOI: 10.1021/acs.inorgchem.6b01844
247	0.247 Nd₂NiO_4.11		0,0,0	P4₂/ncm (138) (standard)	(a,b,c;0,0,0)	P4₂/nc'm' (138.525) (standard)	4/mm'm' (15.6.58)	S.R. Maity, M. Ceretti, L. Keller, J. Schefer, T. Shang, E. Pomjakushina, M. Meven, D. Sheptyakov, A. Cervellino and W. Paulus, Physical Review Materials (2019) 3 083604. DOI: 10.1103/physrevmaterials.3.083604
248	0.248 TbPt_0.8Cu_0.2		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pn'm'a (62.446) (standard)	m'm'm (8.4.27)	A. Senas, J.R. Fernandez, J.C.G. Sal, J. Campo and J. Rodriguez-Carvajal, Physical Review B (2004) 70 184425. DOI: 10.1103/physrevb.70.184425
249	0.249 NdNi_0.6Cu_0.4		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pnm'a' (62.447) (standard)	m'm'm (8.4.27)	J.G. Soldevilla, J.A. Blanco, J.R. Fernandez, J.I. Espeso, J.C.G. Sal, M.T. Fernandez-Diaz, J. Rodriguez-Carvajal and D. Paccard, Physical Review B (2004) 70 224411. DOI: 10.1103/physrevb.70.224411
250	0.250 (NH₂(CH₃)₂)(FeCo(HCOO)₆)		0,0,0	P-3c1 (163) (standard)	(a,b,c;0,0,0)	C2'/c' (15.89) (a+b,-a+b,c;0,0,0)	2'/m' (5.5.16)	L. Mazzuca, L. Canadillas-Delgado, J.A. Rodriguez-Velamazan, O. Fabelo, M. Scarrozza, A. Stroppa, S. Picozzi, J.-P. Zhao, X.-H. Bu and J. Rodriguez-Carvajal, Inorganic Chemistry (2016) 56 197-207. DOI: 10.1021/acs.inorgchem.6b01866
251	0.251 (NH₂(CH₃)₂)(FeMn(HCOO)₆)		0,0,0	P-3c1 (163) (standard)	(a,b,c;0,0,0)	C2'/c' (15.89) (a+b,-a+b,c;0,0,0)	2'/m' (5.5.16)	L. Mazzuca, L. Canadillas-Delgado, J.A. Rodriguez-Velamazan, O. Fabelo, M. Scarrozza, A. Stroppa, S. Picozzi, J.-P. Zhao, X.-H. Bu and J. Rodriguez-Carvajal, Inorganic Chemistry (2016) 56 197-207. DOI: 10.1021/acs.inorgchem.6b01866
252	0.252 Cs₂FeCl_5.D₂O		0,0,0	C2/c (15) (a+c,b,c;0,0,0)	(a,b,c;0,0,0)	C2'/c (15.87) (a+c,b,c;0,0,0)	2'/m (5.3.14)	O. Fabelo, J.A. Rodriguez-Velamazan, L. Canadillas-Delgado, L. Mazzuca, J. Campo, Á. Millan, L.C. Chapon and J. Rodriguez-Carvajal, Physical Review B (2017) 96 104428. DOI: 10.1103/physrevb.96.104428
253	0.253 Cs₂FeCl_5.D₂O		0,0,0	C2/c (15) (a+c,b,c;0,0,0)	(a,b,c;0,0,0)	C2 (5.13) (a+c,b,c;0,0,1/4)	2 (3.1.6)	O. Fabelo, J.A. Rodriguez-Velamazan, L. Canadillas-Delgado, L. Mazzuca, J. Campo, Á. Millan, L.C. Chapon and J. Rodriguez-Carvajal, Physical Review B (2017) 96 104428. DOI: 10.1103/physrevb.96.104428
254	0.254 [C(ND₂)₃]Cu(DCOO)₃		0,0,0	Pna2₁ (33) (standard)	(a,b,c;0,0,0)	Pna2₁ (33.144) (standard)	mm2 (7.1.20)	M. Viswanathan, S.G. Bhat, A.K. Bera and J. Rodriguez-Carvajal, The Journal of Physical Chemistry C (2019) 123 18551-18559. DOI: 10.1021/acs.jpcc.9b04368
255	0.255 [C(ND₂)₃]Cu(DCOO)₃		0,0,0	Pna2₁ (33) (standard)	(a,b,c;0,0,0)	Pn'a'2₁ (33.148) (standard)	m'm'2 (7.4.23)	M. Viswanathan, S.G. Bhat, A.K. Bera and J. Rodriguez-Carvajal, The Journal of Physical Chemistry C (2019) 123 18551-18559. DOI: 10.1021/acs.jpcc.9b04368
256	0.256 [C(ND₂)₃]Mn(DCOO)₃		0,0,0	Pnna (52) (standard)	(a,b,c;0,0,0)	Pn'n'a (52.310) (standard)	m'm'm (8.4.27)	M. Viswanathan, S.G. Bhat, A.K. Bera and J. Rodriguez-Carvajal, The Journal of Physical Chemistry C (2019) 123 18551-18559. DOI: 10.1021/acs.jpcc.9b04368
257	0.257 [C(ND₂)₃]Co(DCOO)₃		0,0,0	Pnna (52) (standard)	(a,b,c;0,0,0)	Pn'na' (52.312) (standard)	m'm'm (8.4.27)	M. Viswanathan, S.G. Bhat, A.K. Bera and J. Rodriguez-Carvajal, The Journal of Physical Chemistry C (2019) 123 18551-18559. DOI: 10.1021/acs.jpcc.9b04368
258	0.258 Li₃Fe₂(PO₄)₃		0,0,0	P2₁/n (14) (a,-c,a+b;0,0,0)	(a,b,c;0,0,0)	P2₁'/c' (14.79) (a,-c,a+b;0,0,0)	2'/m' (5.5.16)	G. Rousse, J. Rodriguez-Carvajal, C. Wurm and C. Masquelier, Applied Physics A: Materials Science & Processing (2002) 74 s704-s706. DOI: 10.1007/s003390101146
259	0.259 Li₃Fe₂(PO₄)₃		0,0,0	R-3 (148) (standard)	(a,b,c;0,0,0)	R-3 (148.17) (standard)	-3 (17.1.62)	G. Rousse, J. Rodriguez-Carvajal, C. Wurm and C. Masquelier, Applied Physics A: Materials Science & Processing (2002) 74 s704-s706. DOI: 10.1007/s003390101146
260	0.260 CuFePO₅		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pnma (62.441) (standard)	mmm (8.1.24)	N.E. Khayati, R.C.E. Moursli, J. Rodriguez-Carvajal, G. Andre, N. Blanchard, F. Bouree, G. Collin and T. Roisnel, The European Physical Journal B (2001) 22 429-442. DOI: 10.1007/s100510170093
261	0.261 NiFePO₅		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pnma (62.441) (standard)	mmm (8.1.24)	N.E. Khayati, R.C.E. Moursli, J. Rodriguez-Carvajal, G. Andre, N. Blanchard, F. Bouree, G. Collin and T. Roisnel, The European Physical Journal B (2001) 22 429-442. DOI: 10.1007/s100510170093
262	0.262 CoFePO₅		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pnm'a' (62.447) (standard)	m'm'm (8.4.27)	N.E. Khayati, R.C.E. Moursli, J. Rodriguez-Carvajal, G. Andre, N. Blanchard, F. Bouree, G. Collin and T. Roisnel, The European Physical Journal B (2001) 22 429-442. DOI: 10.1007/s100510170093
263	0.263 Fe₂PO₅		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pnma (62.441) (standard)	mmm (8.1.24)	J.K. Warner, A.K. Cheetham, D.E. Cox and R.B.V. Dreele, Journal of the American Chemical Society (1992) 114 6074-6080. DOI: 10.1021/ja00041a027
264	0.264 Fe₃(PO₄)₂		0,0,0	P2₁/c (14) (standard)	(a,b,c;0,0,0)	P2₁/c' (14.78) (standard)	2/m' (5.4.15)	J.K. Warner, A.K. Cheetham, A.G. Nord, R.B.V. Dreele and M. Yethiraj, Journal of Materials Chemistry (1992) 2 191. DOI: 10.1039/jm9920200191
265	0.265 Mn₃(Co_0.61Mn_0.39)N		0,0,0	Pm-3m (221) (standard)	(a-b,b-c,a+b+c;0,0,0)	R-3 (148.17) (standard)	-3 (17.1.62)	Y. Sun, P. Hu, K. Shi, H. Wu, S. Deng, Q. Huang, Z. Mao, P. Song, L. Wang, W. Hao, S. Deng and C. Wang, Physical Review Materials (2019) 3 024409. DOI: 10.1103/physrevmaterials.3.024409
266	0.266 Na₂BaCo(VO₄)₂		0,0,0	P-3m1 (164) (standard)	(a,b,c;0,0,0)	P-3m'1 (164.89) (standard)	-3m' (20.5.75)	L.D. Sanjeewa, V.O. Garlea, M.A. McGuire, C.D. McMillen, J.W. Kolis, Inorg. Chem. (2019) 58 2813 - 2821 DOI: 10.1021/acs.inorgchem.8b03418
267	0.267 YbMnBi₂		0,0,0	P4/nmm (129) (standard)	(a,b,c;0,0,0)	P4'/n'm'm (129.416) (standard)	4'/m'm'm (15.5.57)	A. Wang, I. Zaliznyak, W. Ren, L. Wu, D. Graf, V.O. Garlea, J.B. Warren, E. Bozin, Y. Zhu and C. Petrovic, Physical Review B (2016) 94 165161. DOI: 10.1103/physrevb.94.165161
268	0.268 Tb₂MnNiO₆		0,0,0	P2₁/c (14) (a,b,-a+c;0,0,0)	(a,b,c;0,0,0)	P2₁' (4.9) (a,b,c;1/4,0,1/4)	2' (3.3.8)	J.L. Garcia-Munoz, J. Blasco, X. Zhang and O. Fabelo, Physical Review B (2019) 99 184444. DOI: 10.1103/physrevb.99.184444
269	0.269 Tb₂MnNiO₆		0,0,0	P2₁/c (14) (a,b,-a+c;0,0,0)	(a,b,c;0,0,0)	P2₁'/c' (14.79) (a,b,-a+c;0,0,0)	2'/m' (5.5.16)	J.L. Garcia-Munoz, J. Blasco, X. Zhang and O. Fabelo, Physical Review B (2019) 99 184444. DOI: 10.1103/physrevb.99.184444
270	0.270 Tb₂MnNiO₆		0,0,0	P2₁/c (14) (a,b,-a+c;0,0,0)	(a,b,c;0,0,0)	P2₁'/c' (14.79) (a,b,-a+c;0,0,0)	2'/m' (5.5.16)	J.L. Garcia-Munoz, J. Blasco, X. Zhang and O. Fabelo, Physical Review B (2019) 99 184444. DOI: 10.1103/physrevb.99.184444
271	0.271 Tb₂MnNiO₆		0,0,0	P2₁/c (14) (a,b,-a+c;0,0,0)	(a,b,c;0,0,0)	P2₁'/c' (14.79) (a,b,-a+c;0,0,0)	2'/m' (5.5.16)	J.L. Garcia-Munoz, J. Blasco, X. Zhang and O. Fabelo, Physical Review B (2019) 99 184444. DOI: 10.1103/physrevb.99.184444
272	0.272 Tb₂MnNiO₆		0,0,0	P2₁/c (14) (a,b,-a+c;0,0,0)	(a,b,c;0,0,0)	P2₁/c (14.75) (a,b,-a+c;0,0,0)	2/m (5.1.12)	L. Ding, D.D. Khalyavin, P. Manuel, J. Blake, F. Orlandi, W. Yi and A.A. Belik, Acta Materialia (2019) 173 20-26. DOI: 10.1016/j.actamat.2019.04.044
273	0.273 Mn₃ZnN		0,0,0	Pm-3m (221) (standard)	(a,b,c;0,0,0)	R-3m (166.97) (a-b,b-c,a+b+c;0,0,0)	-3m (20.1.71)	D. FRUCHART, E.F. BERTAUT, R. MADAR and R. FRUCHART, Le Journal de Physique Colloques (1971) 32 C1-876-C1-877. DOI: 10.1051/jphyscol:19711309
274	0.274 Mn₄N		0,0,0	Pm-3m (221) (standard)	(a,b,c;0,0,0)	R-3m' (166.101) (a-b,b-c,a+b+c;0,0,0)	-3m' (20.5.75)	W.J. Takei, R.R. Heikes and G. Shirane, Physical Review (1962) 125 1893-1897. DOI: 10.1103/physrev.125.1893
275	0.275 Mn₃AlN		0,0,0	Pm-3m (221) (standard)	(a,b,c;0,0,0)	R-3m' (166.101) (a-b,b-c,a+b+c;0,0,0)	-3m' (20.5.75)	W.J. Takei, R.R. Heikes and G. Shirane, Physical Review (1962) 125 1893-1897. DOI: 10.1103/physrev.125.1893
276	0.276 Mn₃AlN		0,0,0	Pm-3m (221) (standard)	(a,b,c;0,0,0)	Cmm'm' (65.486) (a+b,-a+b,c;0,0,0)	m'm'm (8.4.27)	W.J. Takei, R.R. Heikes and G. Shirane, Physical Review (1962) 125 1893-1897. DOI: 10.1103/physrev.125.1893
277	0.277 MgMnO₃		0,0,0	R-3 (148) (standard)	(a,b,c;0,0,0)	R-3' (148.19) (standard)	-3' (17.3.64)	Y. Haraguchi, K. Nawa, C. Michioka, H. Ueda, A. Matsuo, K. Kindo, M. Avdeev, T.J. Sato and K. Yoshimura, Physical Review Materials (2019) 3 124406. DOI: 10.1103/physrevmaterials.3.124406
278	0.278 Cu_0.82Mn_1.18As		0,0,0	P-6 (174) (standard)	(a,b,c;0,0,0)	P-6' (174.135) (standard)	-6' (22.3.81)	M.H. Karigerasi, K. Kang, A. Ramanathan, D.L. Gray, M.D. Frontzek, H. Cao, A. Schleife and D.P. Shoemaker, Physical Review Materials (2019) 3 111402. DOI: 10.1103/physrevmaterials.3.111402
279	0.279 Mn₃As		0,0,0	P6₃/mmc (194) (standard)	(a,b,c;0,0,0)	Cmc'm' (63.463) (-b,2a+b,c;0,0,0)	m'm'm (8.4.27)	P.J. Brown, V. Nunez, F. Tasset, J.B. Forsyth and P. Radhakrishna, Journal of Physics: Condensed Matter (1990) 2 9409-9422. DOI: 10.1088/0953-8984/2/47/015
280	0.280 Mn₃As		0,0,0	P6₃/mmc (194) (standard)	(a,b,c;0,0,0)	Cm'cm' (63.464) (-b,2a+b,c;0,0,0)	m'm'm (8.4.27)	P.J. Brown, V. Nunez, F. Tasset, J.B. Forsyth and P. Radhakrishna, Journal of Physics: Condensed Matter (1990) 2 9409-9422. DOI: 10.1088/0953-8984/2/47/015
281	0.281 Co₂V₂O₇		0,0,0	P2₁/c (14) (standard)	(a,b,c;0,0,0)	P2₁/c' (14.78) (standard)	2/m' (5.4.15)	W.H. Ji, L. Yin, W.M. Zhu, C.M.N. Kumar, C. Li, H.-F. Li, W.T. Jin, S. Nandi, X. Sun, Y. Su, T. Bruckel, Y. Lee, B.N. Harmon, L. Ke, Z.W. Ouyang and Y. Xiao, Physical Review B (2019) 100 134420. DOI: 10.1103/physrevb.100.134420
282	0.282 U₁₄Au₅₁		0,0,0	P6/m (175) (standard)	(a,b,c;0,0,0)	P6'/m (175.139) (standard)	6'/m (23.3.84)	A. Dommann, H. Ott, F. Hulliger and P. Fischer, Journal of the Less Common Metals (1990) 160 171-180. DOI: 10.1016/0022-5088(90)90119-5
283	0.283 U₁₄Au₅₁		0,0,0	P6/m (175) (standard)	(a,b,c;0,0,0)	P6/m' (175.140) (standard)	6/m' (23.4.85)	P.J. Brown, J. Crangle, K.-U. Neumann, J.G. Smith and K.R.A. Ziebeck, Journal of Physics: Condensed Matter (1997) 9 4729-4742. DOI: 10.1088/0953-8984/9/22/023
284	0.284 KOsO₄		0,0,0	I4₁/a (88) (standard)	(a,b,c;0,0,0)	I4₁'/a' (88.85) (standard)	4'/m' (11.5.39)	S. Injac, A.K.L. Yuen, M. Avdeev, F. Orlandi and B.J. Kennedy, Physical Chemistry Chemical Physics (2019) 21 7261-7264. DOI: 10.1039/c9cp00448c
285	0.285 KRuO₄		0,0,0	I4₁/a (88) (standard)	(a,b,c;0,0,0)	I4₁'/a' (88.85) (standard)	4'/m' (11.5.39)	C.A. Marjerrison, C. Mauws, A.Z. Sharma, C.R. Wiebe, S. Derakhshan, C. Boyer, B.D. Gaulin and J.E. Greedan, Inorganic Chemistry (2016) 55 12897-12903. DOI: 10.1021/acs.inorgchem.6b02284
286	0.286 Mn₅Ge₃		0,0,0	P6₃/mcm (193) (standard)	(a,b,c;0,0,0)	P6₃/mc'm' (193.260) (standard)	6/mm'm' (27.6.105)	J.B. Forsyth and P.J. Brown, Journal of Physics: Condensed Matter (1990) 2 2713-2720. DOI: 10.1088/0953-8984/2/11/014
287	0.287 SrCo(VO₄)(OH)		0,0,0	P2₁2₁2₁ (19) (standard)	(a,b,c;0,0,0)	P2₁2₁2₁ (19.25) (standard)	222 (6.1.17)	L.D. Sanjeewa, V.O. Garlea, R.S. Fishman, M.A. McGuire, J. Xing, H. Cao, J.W. Kolis and A.S. Sefat, Inorganic Chemistry (2019) 59 1029-1037. DOI: 10.1021/acs.inorgchem.9b02427
288	0.288 NdMnO₃		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pn'ma' (62.448) (standard)	m'm'm (8.4.27)	A. Munoz, J.A. Alonso, M.J. Martinez-Lope, J.L. Garcia-Munoz and M.T. Fernandez-Diaz, Journal of Physics: Condensed Matter (2000) 12 1361-1376. DOI: 10.1088/0953-8984/12/7/319
289	0.289 NdMnO₃		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pn'ma' (62.448) (standard)	m'm'm (8.4.27)	A. Munoz, J.A. Alonso, M.J. Martinez-Lope, J.L. Garcia-Munoz and M.T. Fernandez-Diaz, Journal of Physics: Condensed Matter (2000) 12 1361-1376. DOI: 10.1088/0953-8984/12/7/319
290	0.290 CeCu₂		0,0,0	Imma (74) (standard)	(a,b,c;0,0,0)	Im'm'a' (74.560) (standard)	m'm'm' (8.5.28)	R. Trump, S. Thierfeldt, M. Loewenhaupt and T. Chattopadhyay, Journal of Applied Physics (1991) 69 4699-4701. DOI: 10.1063/1.348277
291	0.291 Tl₂NiMnO₆		0,0,0	P2₁/c (14) (a,b,-a+c;0,0,0)	(a,b,c;0,0,0)	P2₁/c (14.75) (a,b,-a+c;0,0,0)	2/m (5.1.12)	L. Ding, D.D. Khalyavin, P. Manuel, J. Blake, F. Orlandi, W. Yi and A.A. Belik, Acta Materialia (2019) 173 20-26. DOI: 10.1016/j.actamat.2019.04.044
292	0.292 NiTe₂O₅		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pnma (62.441) (standard)	mmm (8.1.24)	J.H. Lee, M. Kratochvilova, H. Cao, Z. Yamani, J.S. Kim, J.-G. Park, G.R. Stewart and Y.S. Oh, Physical Review B (2019) 100 144441. DOI: 10.1103/physrevb.100.144441
293	0.293 (Tm_0.7Mn_0.3)MnO₃		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pnm'a' (62.447) (standard)	m'm'm (8.4.27)	A. Donni, V.Y. Pomjakushin, L. Zhang, K. Yamaura and A.A. Belik, Physical Review B (2020) 101 054442. DOI: 10.1103/physrevb.101.054442
294	0.294 Cu₄(OD)₆FBr		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pn'm'a (62.446) (standard)	m'm'm (8.4.27)	K. Tustain, G.J. Nilsen, C. Ritter, I. da Silva and L. Clark, Physical Review Materials (2018) 2 111405. DOI: 10.1103/physrevmaterials.2.111405
295	0.295 Cu₂(OD)₃Cl		0,0,0	P2₁/c (14) (a,b,-a+c;0,0,0)	(a,b,c;0,0,0)	P2₁/c (14.75) (a,b,-a+c;0,0,0)	2/m (5.1.12)	A.S. Wills and J.-Y. Henry, Journal of Physics: Condensed Matter (2008) 20 472206. DOI: 10.1088/0953-8984/20/47/472206
296	0.296 Cu₂(OD)₃Cl		0,0,0	P2₁/c (14) (a,b,-a+c;0,0,0)	(a,b,c;0,0,0)	P2₁/c (14.75) (a,b,-a+c;0,0,0)	2/m (5.1.12)	J.-H. Kim, S. Ji, S.-H. Lee, B. Lake, T. Yildirim, H. Nojiri, H. Kikuchi, K. Habicht, Y. Qiu and K. Kiefer, Physical Review Letters (2008) 101 107201. DOI: 10.1103/physrevlett.101.107201
297	0.297 NaCrGe₂O₆		0,0,0	C2/c (15) (standard)	(a,b,c;0,0,0)	C2'/c' (15.89) (standard)	2'/m' (5.5.16)	G. Nenert, C. Ritter, M. Isobe, O. Isnard, A.N. Vasiliev and Y. Ueda, Physical Review B (2009) 80 024402. DOI: 10.1103/physrevb.80.024402
298	0.298 Na₂BaFe(VO₄)₂		0,0,0	C2/c (15) (standard)	(a,b,c;0,0,0)	C2'/c' (15.89) (standard)	2'/m' (5.5.16)	L.D. Sanjeewa, V.O. Garlea, M.A. McGuire, M. Frontzek, C.D. McMillen, K. Fulle and J.W. Kolis, Inorganic Chemistry (2017) 56 14842-14849. DOI: 10.1021/acs.inorgchem.7b02024
299	0.299 Fe₂O₃		0,0,0	Pna2₁ (33) (standard)	(a,b,c;0,0,0)	Pna'2₁' (33.147) (standard)	m'm2' (7.3.22)	J.L. Garcia-Munoz, A. Romaguera, F. Fauth, J. Nogues and M. Gich, Chemistry of Materials (2017) 29 9705-9713. DOI: 10.1021/acs.chemmater.7b03417
300	0.300 Fe₂O₃		0,0,0	Pna2₁ (33) (standard)	(a,b,c;0,0,0)	Pna'2₁' (33.147) (standard)	m'm2' (7.3.22)	J.L. Garcia-Munoz, A. Romaguera, F. Fauth, J. Nogues and M. Gich, Chemistry of Materials (2017) 29 9705-9713. DOI: 10.1021/acs.chemmater.7b03417
301	0.301 Sr₂CoTeO₆		0,0,0	P2₁/n (14) (a,b,-a+c;0,0,0)	(a,b,c;0,0,0)	P2₁/c (14.75) (a,b,-a+c;0,0,0)	2/m (5.1.12)	B. Orayech, L.O. San-Martn, I. Urcelay-Olabarria, L. Lezama, T. Rojo, M.I. Arriortua and J.M. Igartua, Dalton Transactions (2015) 44 13716-13734. DOI: 10.1039/c5dt02026c
302	0.302 Sr₂Co_0.9Mg_0.1TeO₆		0,0,0	P2₁/n (14) (a,b,-a+c;0,0,0)	(a,b,c;0,0,0)	P2₁/c (14.75) (a,b,-a+c;0,0,0)	2/m (5.1.12)	B. Orayech, L.O. San-Martn, I. Urcelay-Olabarria, L. Lezama, T. Rojo, M.I. Arriortua and J.M. Igartua, Dalton Transactions (2015) 44 13716-13734. DOI: 10.1039/c5dt02026c
303	0.303 BaCrF₅		0,0,0	P2₁2₁2₁ (19) (standard)	(a,b,c;0,0,0)	P2₁'2₁'2₁ (19.27) (a,c,-b;1/4,1/4,1/4)	2'2'2 (6.3.19)	H. Holler, W. Kurtz, D. Babel, W. Knop et al., Z. fur Naturforschung B (1982) 37 54 - 60 DOI: ?
304	0.304 Pr_0.5Sr_0.5CoO₃		0,0,0	Imma (74) (standard)	(a,b,c;0,0,0)	Im'm'a (74.558) (standard)	m'm'm (8.4.27)	J.L. Garcia-Munoz, J. Padilla-Pantoja, X. Torrelles, J. Blasco, J. Herrero-Martn, B. Bozzo and J.A. Rodriguez-Velamazan, Physical Review B (2016) 94 014411. DOI: 10.1103/physrevb.94.014411
305	0.305 Pr_0.5Sr_0.5CoO₃		0,0,0	I4/mcm (140) (standard)	(a,b,c;0,0,0)	Fm'm'm (69.524) (-c,a-b,-a-b;0,1/2,0)	m'm'm (8.4.27)	J.L. Garcia-Munoz, J. Padilla-Pantoja, X. Torrelles, J. Blasco, J. Herrero-Martn, B. Bozzo and J.A. Rodriguez-Velamazan, Physical Review B (2016) 94 014411. DOI: 10.1103/physrevb.94.014411
306	0.306 GaFeO₃		0,0,0	R3c (161) (standard)	(a,b,c;0,0,0)	Cc' (9.39) (1/3a+2/3b+2/3c,-a,-1/3a-2/3b+1/3c;1/5,9/10,0)	m' (4.3.11)	H. Niu, M.J. Pitcher, A.J. Corkett, S. Ling, P. Mandal, M. Zanella, K. Dawson, P. Stamenov, D. Batuk, A.M. Abakumov, C.L. Bull, R.I. Smith, C.A. Murray, S.J. Day, B. Slater, F. Cora, J.B. Claridge and M.J. Rosseinsky, Journal of the American Chemical Society (2017) 139 1520-1531. DOI: 10.1021/jacs.6b11128
307	0.307 ScCrO₃		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pnma (62.441) (standard)	mmm (8.1.24)	L. Ding, P. Manuel, D.D. Khalyavin, F. Orlandi, Y. Kumagai, F. Oba, W. Yi and A.A. Belik, Physical Review B (2017) 95 054432. DOI: 10.1103/physrevb.95.054432
308	0.308 InCrO₃		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pnma (62.441) (standard)	mmm (8.1.24)	L. Ding, P. Manuel, D.D. Khalyavin, F. Orlandi, Y. Kumagai, F. Oba, W. Yi and A.A. Belik, Physical Review B (2017) 95 054432. DOI: 10.1103/physrevb.95.054432
309	0.309 TlCrO₃		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pnma (62.441) (standard)	mmm (8.1.24)	L. Ding, P. Manuel, D.D. Khalyavin, F. Orlandi, Y. Kumagai, F. Oba, W. Yi and A.A. Belik, Physical Review B (2017) 95 054432. DOI: 10.1103/physrevb.95.054432
310	0.310 NaMnFeF₆		0,0,0	P321 (150) (standard)	(a,b,c;0,0,0)	P32'1 (150.27) (standard)	32' (18.3.67)	G. Courbion and M. Leblanc, Journal of Magnetism and Magnetic Materials (1988) 74 158-164. DOI: 10.1016/0304-8853(88)90063-7
311	0.311 CoGeO₃		0,0,0	Pbca (61) (standard)	(a,b,c;0,0,0)	Pb'ca (61.435) (b,-c,-a;0,0,0)	m'mm (8.3.26)	G.J. Redhammer, A. Senyshyn, G. Tippelt, C. Pietzonka, G. Roth and G. Amthauer, Physics and Chemistry of Minerals (2009) 37 311-332. DOI: 10.1007/s00269-009-0335
312	0.312 MnGeO₃		0,0,0	C2/c (15) (standard)	(a,b,c;0,0,0)	C2'/c (15.87) (standard)	2'/m (5.3.14)	G.J. Redhammer, A. Senyshyn, G. Tippelt and G. Roth, Journal of Physics: Condensed Matter (2011) 23 254202. DOI: 10.1088/0953-8984/23/25/254202
313	0.313 MnGeO₃		0,0,0	Pbca (61) (standard)	(a,b,c;0,0,0)	Pb'ca (61.435) (-c,-a,b;0,0,0)	m'mm (8.3.26)	G.J. Redhammer, A. Senyshyn, G. Tippelt and G. Roth, Journal of Physics: Condensed Matter (2011) 23 254202. DOI: 10.1088/0953-8984/23/25/254202
314	0.314 ZrCo₂Ge₄O₁₂		0,0,0	P4/nbm (125) (standard)	(a,b,c;0,0,0)	Pb'an' (50.282) (a,b,c;1/2,0,0)	m'm'm (8.4.27)	D. Xu, M. Sale, M. Avdeev, C.D. Ling and P.D. Battle, Dalton Transactions (2017) 46 6921-6933. DOI: 10.1039/c7dt00975e
315	0.315 ZrMn₂Ge₄O₁₂		0,0,0	P4/nbm (125) (standard)	(a,b,c;0,0,0)	P4'/nbm' (125.367) (standard)	4'/mm'm (15.4.56)	D. Xu, M. Sale, M. Avdeev, C.D. Ling and P.D. Battle, Dalton Transactions (2017) 46 6921-6933. DOI: 10.1039/c7dt00975e
316	0.316 DyCrWO₆		0,0,0	Pna2₁ (33) (standard)	(a,b,c;0,0,0)	P2₁ (4.7) (a,c,-b;0,0,0)	2 (3.1.6)	S. Ghara, F. Fauth, E. Suard, J. Rodriquez-Carvajal and A. Sundaresan, Inorganic Chemistry (2018) 57 12827-12835. DOI: 10.1021/acs.inorgchem.8b02023
317	0.317 Ho₂CoMnO₆		0,0,0	P2₁/c (14) (a,b,a+c;0,0,0)	(a,b,c;0,0,0)	P2₁'/c' (14.79) (a,b,a+c;0,0,0)	2'/m' (5.5.16)	J. Blasco, J.L. Garcia-Munoz, J. Garcia, G. Subias, J. Stankiewicz, J.A. Rodriguez-Velamazan and C. Ritter, Physical Review B (2017) 96 024409. DOI: 10.1103/physrevb.96.024409
318	0.318 Tm₂CoMnO₆		0,0,0	P2₁/c (14) (a,b,a+c;0,0,0)	(a,b,c;0,0,0)	P2₁'/c' (14.79) (a,b,a+c;0,0,0)	2'/m' (5.5.16)	J. Blasco, J.L. Garcia-Munoz, J. Garcia, G. Subias, J. Stankiewicz, J.A. Rodriguez-Velamazan and C. Ritter, Physical Review B (2017) 96 024409. DOI: 10.1103/physrevb.96.024409
319	0.319 Tm₂CoMnO₆		0,0,0	P2₁/c (14) (a,b,a+c;0,0,0)	(a,b,c;0,0,0)	P2₁'/c' (14.79) (a,b,a+c;0,0,0)	2'/m' (5.5.16)	J. Blasco, J.L. Garcia-Munoz, J. Garcia, G. Subias, J. Stankiewicz, J.A. Rodriguez-Velamazan and C. Ritter, Physical Review B (2017) 96 024409. DOI: 10.1103/physrevb.96.024409
320	0.320 U₂Pd₂In		0,0,0	P4/mbm (127) (standard)	(a,b,c;0,0,0)	P4'/m'bm' (127.394) (standard)	4'/m'm'm (15.5.57)	V. Tran, Z. Zolnierek, F. Bouree and T. Roisnel, Journal of Magnetism and Magnetic Materials (1996) 161 270-274. DOI: 10.1016/s0304-8853(96)00023-6
321	0.321 U₂Pd₂Sn		0,0,0	P4/mbm (127) (standard)	(a,b,c;0,0,0)	P4'/m'bm' (127.394) (standard)	4'/m'm'm (15.5.57)	D. Laffargue, F. Bouree, B. Chevalier, T. Roisnel, P. Gravereau and J. Etourneau, Journal of Magnetism and Magnetic Materials (1997) 170 155-167. DOI: 10.1016/s0304-8853(97)00024-3
322	0.322 Cu_1.94Mn_1.06BO₅		0,0,0	P2₁/c (14) (standard)	(a,b,c;0,0,0)	P2₁'/c' (14.79) (standard)	2'/m' (5.5.16)	E. Moshkina, C. Ritter, E. Eremin, S. Sofronova, A. Kartashev, A. Dubrovskiy and L. Bezmaternykh, Journal of Physics: Condensed Matter (2017) 29 245801. DOI: 10.1088/1361-648x/aa7020
323	0.323 LaCrO₃		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pnma (62.441) (standard)	mmm (8.1.24)	A. Martinelli, M. Ferretti, M. Cimberle and C. Ritter, Materials Research Bulletin (2011) 46 190-193. DOI: 10.1016/j.materresbull.2010.11.016
324	0.324 CdYb₂S₄		0,0,0	Fd-3m (227) (standard)	(a,b,c;0,0,0)	I4₁/amd (141.551) (1/2a+1/2b,-1/2a+1/2b,c;1/4,0,1/4)	4/mmm (15.1.53)	P.D. de Reotier, C. Marin, A. Yaouanc, C. Ritter, A. Maisuradze, B. Roessli, A. Bertin, P.J. Baker and A. Amato, Physical Review B (2017) 96 134403. DOI: 10.1103/physrevb.96.134403
325	0.325 CdYb₂Se₄		0,0,0	Fd-3m (227) (standard)	(a,b,c;0,0,0)	I4₁/amd (141.551) (1/2a+1/2b,-1/2a+1/2b,c;1/4,0,1/4)	4/mmm (15.1.53)	P.D. de Reotier, C. Marin, A. Yaouanc, C. Ritter, A. Maisuradze, B. Roessli, A. Bertin, P.J. Baker and A. Amato, Physical Review B (2017) 96 134403. DOI: 10.1103/physrevb.96.134403
326	0.326 Nd₂Sn₂O₇		0,0,0	Fd-3m (227) (standard)	(a,b,c;0,0,0)	Fd-3m' (227.131) (standard)	m-3m' (32.4.121)	A. Bertin, P.D. de Reotier, B. Fåk, C. Marin, A. Yaouanc, A. Forget, D. Sheptyakov, B. Frick, C. Ritter, A. Amato, C. Baines and P.J.C. King, Physical Review B (2015) 92 144423. DOI: 10.1103/physrevb.92.144423
327	0.327 CsMnF₄		0,0,0	P4/nmm (129) (standard)	(a,b,c;0,0,0)	Pmm'n' (59.410) (standard)	m'm'm (8.4.27)	W. Massa, M. Steiner et al., J. Solid State Chem. (1980) 32 137 - 143 DOI: ?
328	0.328 KMnF₄		0,0,0	P2₁/a (14) (-c,b,a;0,0,0)	(a,b,c;0,0,0)	P2₁'/c' (14.79) (-c,b,a;0,0,0)	2'/m' (5.5.16)	M.C. Moron, F. Palacio and J. Rodriguez-Carvajal, Journal of Physics: Condensed Matter (1993) 5 4909-4928. DOI: 10.1088/0953-8984/5/28/007
329	0.329 RbMnF₄		0,0,0	P2₁/a (14) (-c,b,a;0,0,0)	(a,b,c;0,0,0)	P-1 (2.4) (standard)	-1 (2.1.3)	M.C. Moron, F. Palacio and J. Rodriguez-Carvajal, Journal of Physics: Condensed Matter (1993) 5 4909-4928. DOI: 10.1088/0953-8984/5/28/007
330	0.330 ErGe₃		0,0,0	Cmcm (63) (standard)	(a,b,c;0,0,0)	P2₁/m' (11.53) (1/2a+1/2b,-c,-1/2a+1/2b;0,0,0)	2/m' (5.4.15)	P. Schobinger-Papamantellos, G. Andre, J. Rodriguez-Carvajal, C. de Groot and K. Buschow, Journal of Alloys and Compounds (1996) 232 165-168. DOI: 10.1016/0925-8388(95)01949-9
331	0.331 Fe₂Mo₃O₈		0,0,0	P6₃mc (186) (standard)	(a,b,c;0,0,0)	P6₃'m'c (186.205) (standard)	6'mm' (25.3.93)	D. Bertrand and H. Kerner-Czeskleba, Journal de Physique (1975) 36 379-390. DOI: 10.1051/jphys:01975003605037900
332	0.332 Co₂Mo₃O₈		0,0,0	P6₃mc (186) (standard)	(a,b,c;0,0,0)	P6₃'m'c (186.205) (standard)	6'mm' (25.3.93)	D. Bertrand and H. Kerner-Czeskleba, Journal de Physique (1975) 36 379-390. DOI: 10.1051/jphys:01975003605037900
333	0.333 Mn₂Mo₃O₈		0,0,0	P6₃mc (186) (standard)	(a,b,c;0,0,0)	P6₃m'c' (186.207) (standard)	6m'm' (25.4.94)	D. Bertrand and H. Kerner-Czeskleba, Journal de Physique (1975) 36 379-390. DOI: 10.1051/jphys:01975003605037900
334	0.334 CoF₃		0,0,0	R-3c (167) (standard)	(a,b,c;0,0,0)	R-3c (167.103) (standard)	-3m (20.1.71)	S. Lee, S. Torii, Y. Ishikawa, M. Yonemura, T. Moyoshi and T. Kamiyama, Physica B: Condensed Matter (2018) 551 94-97. DOI: 10.1016/j.physb.2017.11.082
335	0.335 FeF₃		0,0,0	R-3c (167) (standard)	(a,b,c;0,0,0)	C2'/c' (15.89) (1/3a+2/3b+2/3c,-a,-1/3a-2/3b+1/3c;0,1/2,0)	2'/m' (5.5.16)	S. Lee, S. Torii, Y. Ishikawa, M. Yonemura, T. Moyoshi and T. Kamiyama, Physica B: Condensed Matter (2018) 551 94-97. DOI: 10.1016/j.physb.2017.11.082
336	0.336 NdFeO₃		0,0,0	Pnma (62) (b,c,a;0,0,0)	(a,b,c;0,0,0)	Pn'ma' (62.448) (b,c,a;0,0,0)	m'm'm (8.4.27)	W. Slawiński, R. Przenioslo, I. Sosnowska and E. Suard, Journal of Physics: Condensed Matter (2005) 17 4605-4614. DOI: 10.1088/0953-8984/17/29/002
337	0.337 NdFeO₃		0,0,0	Pnma (62) (b,c,a;0,0,0)	(a,b,c;0,0,0)	P2₁'/c' (14.79) (a,b,-a+c;0,0,0)	2'/m' (5.5.16)	W. Slawiński, R. Przenioslo, I. Sosnowska and E. Suard, Journal of Physics: Condensed Matter (2005) 17 4605-4614. DOI: 10.1088/0953-8984/17/29/002
338	0.338 Co₂Mo₃O₈		0,0,0	P6₃mc (186) (standard)	(a,b,c;0,0,0)	P6₃'m'c (186.205) (standard)	6'mm' (25.3.93)	Y.S. Tang, S.M. Wang, L. Lin, C. Li, S.H. Zheng, C.F. Li, J.H. Zhang, Z.B. Yan, X.P. Jiang and J.-M. Liu, Physical Review B (2019) 100 134112. DOI: 10.1103/physrevb.100.134112
339	0.339 Nd₂Hf₂O₇		0,0,0	Fd-3m (227) (standard)	(a,b,c;0,0,0)	Fd-3m' (227.131) (standard)	m-3m' (32.4.121)	V.K. Anand, A.K. Bera, J. Xu, T. Herrmannsdorfer, C. Ritter and B. Lake, Physical Review B (2015) 92 184418. DOI: 10.1103/physrevb.92.184418
340	0.340 Nd₂Zr₂O₇		0,0,0	Fd-3m (227) (standard)	(a,b,c;0,0,0)	Fd-3m' (227.131) (standard)	m-3m' (32.4.121)	J. Xu, V.K. Anand, A.K. Bera, M. Frontzek, D.L. Abernathy, N. Casati, K. Siemensmeyer and B. Lake, Physical Review B (2015) 92 224430. DOI: 10.1103/physrevb.92.224430
341	0.341 DyGe_1.75		0,0,0	Cmmm (65) (standard)	(a,b,c;0,0,0)	Cm'mm (65.483) (standard)	m'mm (8.3.26)	P. Schobinger-Papamantellos, D.D. Mooij and K. Buschow, Journal of the Less Common Metals (1990) 163 319-330. DOI: 10.1016/0022-5088(90)90598-e
342	0.342 Tb₃Ge₅		0,0,0	Fdd2 (43) (standard)	(a,b,c;0,0,0)	Fdd2 (43.224) (standard)	mm2 (7.1.20)	P. Schobinger-Papamantellos and K. Buschow, Journal of the Less Common Metals (1989) 146 279-298. DOI: 10.1016/0022-5088(89)90386
343	0.343 TbGe₂		0,0,0	Cmmm (65) (standard)	(a,b,c;0,0,0)	Cm'mm (65.483) (standard)	m'mm (8.3.26)	P. Schobinger-Papamantellos, D.D. Mooij and K. Buschow, Journal of the Less Common Metals (1988) 144 265-274. DOI: 10.1016/0022-5088(88)90140-3
344	0.344 ErGe_1.83		0,0,0	Cmc2₁ (36) (standard)	(a,b,c;0,0,0)	Cmc2₁ (36.172) (standard)	mm2 (7.1.20)	O. Oleksyn, P. Schobinger-Papamantellos, C. Ritter, C. de Groot and K. Buschow, Journal of Alloys and Compounds (1997) 252 53-58. DOI: 10.1016/s0925-8388(96)02714-4
345	0.345 Tb₂C₃		0,0,0	I-43d (220) (standard)	(a,b,c;0,0,0)	Fd'd2' (43.226) (b+c,-b+c,a;0,0,3/4)	m'm2' (7.3.22)	M. Atoji, The Journal of Chemical Physics (1971) 54 3504-3509. DOI: 10.1063/1.1675373
346	0.346 Tb₂ReC₂		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pnma' (62.445) (standard)	m'mm (8.3.26)	M. Reehuis, J. Rodriguez-Carvajal, M. Danebrock and W. Jeitschko, Journal of Magnetism and Magnetic Materials (1995) 151 273-282. DOI: 10.1016/0304-8853(95)00315-0
347	0.347 Er₂ReC₂		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	P2₁'/c (14.77) (-c,a,-b+c;0,0,0)	2'/m (5.3.14)	M. Reehuis, J. Rodriguez-Carvajal, M. Danebrock and W. Jeitschko, Journal of Magnetism and Magnetic Materials (1995) 151 273-282. DOI: 10.1016/0304-8853(95)00315-0
348	0.348 Bi₂CuO₄		0,0,0	P4/ncc (130) (standard)	(a,b,c;0,0,0)	P4/n'c'c' (130.431) (standard)	4/m'm'm' (15.7.59)	J.L. Garcia-Munoz, J. Rodriguez-Carvajal, F. Sapina, M.J. Sanchis, R. Ibanez and D. Beltran-Porter, Journal of Physics: Condensed Matter (1990) 2 2205-2214. DOI: 10.1088/0953-8984/2/9/010
349	0.349 Nd₂NiO₄		0,0,0	P4₂/ncm (138) (standard)	(a,b,c;0,0,0)	P4₂/nc'm' (138.525) (standard)	4/mm'm' (15.6.58)	J. Rodriguez-Carvajal, M.T. Fernandez-Diaz, J.L. Martinez, F. Fernandez and R. Saez-Puche, Europhysics Letters (EPL) (1990) 11 261-268. DOI: 10.1209/0295-5075/11/3/013
350	0.350 TbAlO₃		0,0,0	Pbnm (62) (-b,-c,a;0,0,0)	(a,b,c;0,0,0)	Pn'm'a' (62.449) (-b,-c,a;0,0,0)	m'm'm' (8.5.28)	J. Mareschal, J. Sivardiere, G.F.D. Vries and E.F. Bertaut, Journal of Applied Physics (1968) 39 1364-1366. DOI: 10.1063/1.1656306
351	0.351 TbFeO₃		0,0,0	Pbnm (62) (-b,-c,a;0,0,0)	(a,b,c;0,0,0)	Pn'ma' (62.448) (-b,-c,a;0,0,0)	m'm'm (8.4.27)	E. Bertaut, J. Chappert, J. Mareschal, J. Rebouillat and J. Sivardiere, Solid State Communications (1967) 5 293-298. DOI: 10.1016/0038-1098(67)90276-1
352	0.352 TbFeO₃		0,0,0	Pbnm (62) (-b,-c,a;0,0,0)	(a,b,c;0,0,0)	Pn'm'a (62.446) (-b,-c,a;0,0,0)	m'm'm (8.4.27)	E. Bertaut, J. Chappert, J. Mareschal, J. Rebouillat and J. Sivardiere, Solid State Communications (1967) 5 293-298. DOI: 10.1016/0038-1098(67)90276-1
353	0.353 TbFeO₃		0,0,0	Pbnm (62) (-b,-c,a;0,0,0)	(a,b,c;0,0,0)	P2₁'2₁'2₁ (19.27) (a,b,c;1/4,0,0)	2'2'2 (6.3.19)	E. Bertaut, J. Chappert, J. Mareschal, J. Rebouillat and J. Sivardiere, Solid State Communications (1967) 5 293-298. DOI: 10.1016/0038-1098(67)90276-1
354	0.354 TbCrO₃		0,0,0	Pbnm (62) (-b,-c,a;0,0,0)	(a,b,c;0,0,0)	Pn'm'a (62.446) (-b,-c,a;0,0,0)	m'm'm (8.4.27)	E.F. Bertaut, J. Mareschal, G.F. De Vries, J. Phys. Chem. Solids (1967) 28 2143 - 2154 DOI: 10.1016/0022-3697(67)90238-7
355	0.355 Mn_2.85Ga_1.15		0,0,0	P6₃/mmc (194) (standard)	(a,b,c;0,0,0)	P6₃'/m'm'c (194.268) (standard)	6'/m'mm' (27.5.104)	E. Kren and G. Kadar, Solid State Communications (1970) 8 1653-1655. DOI: 10.1016/0038-1098(70)90484-9
356	0.356 Mn_2.85Ga_1.15		0,0,0	I4/mmm (139) (standard)	(a,b,c;0,0,0)	I4/mm'm' (139.537) (standard)	4/mm'm' (15.6.58)	E. Kren and G. Kadar, Solid State Communications (1970) 8 1653-1655. DOI: 10.1016/0038-1098(70)90484-9
357	0.357 CaFe₅O₇		0,0,0	P2₁/m (11) (standard)	(a,b,c;0,0,0)	P2₁/m (11.50) (standard)	2/m (5.1.12)	C. Delacotte, Y. Breard, V. Caignaert, V. Hardy, J. Greneche, S. Hebert, E. Suard and D. Pelloquin, Journal of Solid State Chemistry (2017) 247 13-19. DOI: 10.1016/j.jssc.2016.12.021
358	0.358 CaFe₅O₇		0,0,0	P2₁/m (11) (standard)	(a,b,c;0,0,0)	P2₁'/m' (11.54) (standard)	2'/m' (5.5.16)	C. Delacotte, Y. Breard, V. Caignaert, V. Hardy, J. Greneche, S. Hebert, E. Suard and D. Pelloquin, Journal of Solid State Chemistry (2017) 247 13-19. DOI: 10.1016/j.jssc.2016.12.021
359	0.359 Mn₂ScSbO₆		0,0,0	R3 (146) (standard)	(a,b,c;0,0,0)	P1 (1.1) (2/3a+1/3b+1/3c,1/3a+2/3b-1/3c,-1/3a+1/3b+1/3c;0,0,0)	1 (1.1.1)	E. Solana-Madruga, A.J.D. santos-Garcia, A.M. Arevalo-Lopez, D. Ávila-Brande, C. Ritter, J.P. Attfield and R. Saez-Puche, Dalton Transactions (2015) 44 20441-20448. DOI: 10.1039/c5dt03445k
360	0.360 Mn₂ScSbO₆		0,0,0	P2₁/n (14) (a,b,-a+c;0,0,0)	(a,b,c;0,0,0)	P2₁/c (14.75) (a,b,-a+c;0,0,0)	2/m (5.1.12)	E. Solana-Madruga, A.J.D. santos-Garcia, A.M. Arevalo-Lopez, D. Ávila-Brande, C. Ritter, J.P. Attfield and R. Saez-Puche, Dalton Transactions (2015) 44 20441-20448. DOI: 10.1039/c5dt03445k
361	0.361 Sr₃LiRuO₆		0,0,0	R-3c (167) (standard)	(a,b,c;0,0,0)	C2'/c' (15.89) (1/3a+2/3b+2/3c,-a,-1/3a-2/3b+1/3c;0,1/2,0)	2'/m' (5.5.16)	D.G. Porter, M.S. Senn, D.D. Khalyavin, A. Cortese, N. Waterfield-Price, P.G. Radaelli, P. Manuel, H.-C. zur-Loye, C. Mazzoli and A. Bombardi, Physical Review B (2016) 94 134404. DOI: 10.1103/physrevb.94.134404
362	0.362 RbFeCl₅(D₂O)		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pn'm'a' (62.449) (standard)	m'm'm' (8.5.28)	M. Gabas, F. Palacio, J. Rodriguez-Carvajal and D. Visser, Journal of Physics: Condensed Matter (1995) 7 4725-4738. DOI: 10.1088/0953-8984/7/24/012
363	0.363 KFeCl₅(D₂O)		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pn'm'a' (62.449) (standard)	m'm'm' (8.5.28)	M. Gabas, F. Palacio, J. Rodriguez-Carvajal and D. Visser, Journal of Physics: Condensed Matter (1995) 7 4725-4738. DOI: 10.1088/0953-8984/7/24/012
364	0.364 SrCr₂As₂		0,0,0	I4/mmm (139) (standard)	(a,b,c;0,0,0)	I4'/m'm'm (139.536) (standard)	4'/m'm'm (15.5.57)	P. Das, N.S. Sangeetha, G.R. Lindemann, T.W. Heitmann, A. Kreyssig, A.I. Goldman, R.J. McQueeney, D.C. Johnston and D. Vaknin, Physical Review B (2017) 96 014411. DOI: 10.1103/physrevb.96.014411
365	0.365 BaCr₂As₂		0,0,0	I4/mmm (139) (standard)	(a,b,c;0,0,0)	I4'/m'm'm (139.536) (standard)	4'/m'm'm (15.5.57)	K.A. Filsinger, W. Schnelle, P. Adler, G.H. Fecher, M. Reehuis, A. Hoser, J.-U. Hoffmann, P. Werner, M. Greenblatt and C. Felser, Physical Review B (2017) 95 184414. DOI: 10.1103/physrevb.95.184414
366	0.366 BaCrFeAs₂		0,0,0	I4/mmm (139) (standard)	(a,b,c;0,0,0)	I4'/m'm'm (139.536) (standard)	4'/m'm'm (15.5.57)	K.A. Filsinger, W. Schnelle, P. Adler, G.H. Fecher, M. Reehuis, A. Hoser, J.-U. Hoffmann, P. Werner, M. Greenblatt and C. Felser, Physical Review B (2017) 95 184414. DOI: 10.1103/physrevb.95.184414
367	0.367 EuCr₂As₂		0,0,0	I4/mmm (139) (standard)	(a,b,c;0,0,0)	I-4m'2' (119.319) (standard)	-42'm' (14.5.52)	S. Nandi, Y. Xiao, N. Qureshi, U.B. Paramanik, W.T. Jin, Y. Su, B. Ouladdiaf, Z. Hossain and T. Bruckel, Physical Review B (2016) 94 094411. DOI: 10.1103/physrevb.94.094411
368	0.368 (CH₃NH₃)(Co(COOH)₃		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pn'ma' (62.448) (standard)	m'm'm (8.4.27)	L. Mazzuca, L. Canadillas-Delgado, O. Fabelo, J.A. Rodriguez-Velamazan, J. Luzon, O. Vallcorba, V. Simonet, C.V. Colin and J. Rodriguez-Carvajal, Chemistry - A European Journal (2017) 24 388-399. DOI: 10.1002/chem.201703140
369	0.369 (CH₃NH₃)(Co(COOH)₃		0,0,0	P2₁/n (14) (a,b,a+c;0,0,0)	(a,b,c;0,0,0)	P2₁'/c' (14.79) (a,b,a+c;0,0,0)	2'/m' (5.5.16)	L. Mazzuca, L. Canadillas-Delgado, O. Fabelo, J.A. Rodriguez-Velamazan, J. Luzon, O. Vallcorba, V. Simonet, C.V. Colin and J. Rodriguez-Carvajal, Chemistry - A European Journal (2017) 24 388-399. DOI: 10.1002/chem.201703140
370	0.370 NdMnO₃		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pn'ma' (62.448) (standard)	m'm'm (8.4.27)	A. Kumar, S.M. Yusuf and C. Ritter, Physical Review B (2017) 96 014427. DOI: 10.1103/physrevb.96.014427
371	0.371 NdMnO₃		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pn'ma' (62.448) (standard)	m'm'm (8.4.27)	A. Kumar, S.M. Yusuf and C. Ritter, Physical Review B (2017) 96 014427. DOI: 10.1103/physrevb.96.014427
372	0.372 DyCrO₄		0,0,0	I4₁/a (88) (standard)	(a,b,c;0,0,0)	C2'/c (15.87) (a+b,c,-b;0,0,0)	2'/m (5.3.14)	A.J.D. santos-Garcia, E. Climent-Pascual, M.G. Rabie, J.R. de Paz, J.M.G. Amores, D. Khalyavin and R. Saez-Puche, Journal of Physics: Conference Series (2014) 549 012021. DOI: 10.1088/1742-6596/549/1/012021
373	0.373 La_0.75Bi_0.25Fe_0.5Cr_0.5O₃		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pnma (62.441) (standard)	mmm (8.1.24)	S. Ivanov, P. Beran, G. Bazuev, R. Tellgren, T. Sarkar, P. Nordblad and R. Mathieu, Journal of Solid State Chemistry (2017) 254 166-177. DOI: 10.1016/j.jssc.2017.06.031
374	0.374 YNi₄Si		0,0,0	Cmmm (65) (standard)	(a,b,c;0,0,0)	Cmm'm' (65.486) (b,-a,c;0,0,0)	m'm'm (8.4.27)	A.V. Morozkin, F. Yuan, Y. Mozharivsky, O. Isnard, J. Magn. Magn. Mat. (2014) 368 121 - 125 DOI: 10.1016/j.jmmm.2014.04.057
375	0.375 La₂CoIrO₆		0,0,0	P2₁/n (14) (a,b,-a+c;0,0,0)	(a,b,c;0,0,0)	P2₁/c (14.75) (a,b,-a+c;0,0,0)	2/m (5.1.12)	S. Lee, M-Ch Lee, Y. Ishikawa, P. Miao, S. Torii, C.J. Won, K. D. Lee, N. Hur, D-Y Cho, T. Kamiyam et al., ? (?) ? ? - ? DOI: ?
376	0.376 LaCaFeO₄		0,0,0	Cmce (64) (c,a,b;0,0,0)	(a,b,c;0,0,0)	Cm'c'a (64.474) (c,a,b;0,0,0)	m'm'm (8.4.27)	M.N. Trut-Dinh, M. Vlasse, M. Perrin and G.L. Flem, Journal of Solid State Chemistry (1980) 32 1-8. DOI: 10.1016/0022-4596(80)90262-5
377	0.377 Mn₃Ge		0,0,0	P6₃/mmc (194) (standard)	(a,b,c;0,0,0)	Cm'cm' (63.464) (a+b,-a+b,c;0,0,0)	m'm'm (8.4.27)	J.-R. Soh, F. de Juan, N. Qureshi, H. Jacobsen, H.-Y. Wang, Y.-F. Guo and A.T. Boothroyd, Physical Review B (2020) 101 140411. DOI: 10.1103/physrevb.101.140411
378	0.378 UBi₂		0,0,0	P4/nmm (129) ('a,b,c;0,0,0)	(a,b,c;0,0,0)	P4/n'm'm' (129.419) (standard)	4/m'm'm' (15.7.59)	J. Leciejewicz, R. Troc, A. Murasik and A. Zygmunt, physica status solidi (b) (1967) 22 517-526. DOI: 10.1002/pssb.19670220224
379	0.379 SmFeO₃		0,0,0	Pbnm (62) (b,c,a;0,0,0)	(a,b,c;0,0,0)	Pn'm'a (62.446) (b,c,a;0,0,0)	m'm'm (8.4.27)	C.-Y. Kuo, Y. Drees, M. Fernandez-Diaz, L. Zhao, L. Vasylechko, D. Sheptyakov, A. Bell, T. Pi, H.-J. Lin, M.-K. Wu, E. Pellegrin, S. Valvidares, Z. Li, P. Adler, A. Todorova, R. Kuchler, A. Steppke, L. Tjeng, Z. Hu and A. Komarek, Physical Review Letters (2014) 113 217203. DOI: 10.1103/physrevlett.113.217203
380	0.380 SmFeO₃		0,0,0	Pnma (62) (b,c,a;0,0,0)	(a,b,c;0,0,0)	Pn'ma' (62.448) (b,c,a;0,0,0)	m'm'm (8.4.27)	C.-Y. Kuo, Y. Drees, M. Fernandez-Diaz, L. Zhao, L. Vasylechko, D. Sheptyakov, A. Bell, T. Pi, H.-J. Lin, M.-K. Wu, E. Pellegrin, S. Valvidares, Z. Li, P. Adler, A. Todorova, R. Kuchler, A. Steppke, L. Tjeng, Z. Hu and A. Komarek, Physical Review Letters (2014) 113 217203. DOI: 10.1103/physrevlett.113.217203
381	0.381 Co₆(OH)₃(TeO₃)₄(OH)_0.9(H₂₀)		0,0,0	P6₃mc (186) (standard)	(a,b,c;0,0,0)	P6₃'mc' (186.206) (standard)	6'mm' (25.3.93)	M. Poupon, N. Barrier, A. Pautrat, S. Petit, O. Perez and P. Bazin, Journal of Solid State Chemistry (2019) 270 147-155. DOI: 10.1016/j.jssc.2018.11.007
382	0.382 LiMnPO₄		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pn'm'a' (62.449) (standard)	m'm'm' (8.5.28)	S. Gnewuch and E.E. Rodriguez, Inorganic Chemistry (2020) 59 5883-5895. DOI: 10.1021/acs.inorgchem.9b03545
383	0.383 LiCoPO₄		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pnma' (62.445) (standard)	m'mm (8.3.26)	S. Gnewuch and E.E. Rodriguez, Inorganic Chemistry (2020) 59 5883-5895. DOI: 10.1021/acs.inorgchem.9b03545
384	0.384 LiCoPO₄		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	P2₁'/c (14.77) (c,a,b-c;0,0,0)	2'/m (5.3.14)	D. Vaknin, J. L. Zarestky, L. L. Miller, J.-P. Rivera, H. Schmid, PHYSICAL REVIEW B (2002) 65 224414 DOI: 10.1103/PhysRevB.65.224414
385	0.385 LiCoPO₄		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	P2₁/c' (14.78) (-b,-c,a;0,0,0)	2/m' (5.4.15)	E. Fogh, O. Zaharko, J. Schefer, C. Niedermayer, S. Holm-Dahlin, M.K. Sorensen, A.B. Kristensen, N.H. Andersen, D. Vaknin, N.B. Christensen and R. Toft-Petersen, Physical Review B (2019) 99 104421. DOI: 10.1103/physrevb.99.104421
386	0.386 Fe₃BO₅		0,0,0	Pnma (62) (b,c,a;0,0,0)	(a,b,c;0,0,0)	Pnm'a (62.444) (b,c,a;0,0,0)	m'mm (8.3.26)	P. Bordet and E. Suard, Physical Review B (2009) 79 144408. DOI: 10.1103/physrevb.79.144408
387	0.387 Fe₃BO₅		0,0,0	Pnma (62) (b,c,a;0,0,0)	(a,b,c;0,0,0)	Pm'c2₁' (26.68) (c,a,b;1/4,0,1/4)	m'm2' (7.3.22)	P. Bordet and E. Suard, Physical Review B (2009) 79 144408. DOI: 10.1103/physrevb.79.144408
388	0.388 Co₃Al₂Si₃O₁₂		0,0,0	Ia-3d (230) (standard)	(a,b,c;0,0,0)	I4₁/a'cd (142.563) (c,b,-a;1/4,1/4,3/4)	4/m'mm (15.3.55)	Q. Cui, Q. Huang, J.A. Alonso, D. Sheptyakov, C.R.D. la Cruz, M.T. Fernandez-Diaz, N.N. Wang, Y.Q. Cai, D. Li, X.L. Dong, H.D. Zhou and J.-G. Cheng, Physical Review B (2020) 101 144424. DOI: 10.1103/physrevb.101.144424
389	0.389 Fe_1.5Mn_1.5BO₅		0,0,0	Pbam (55) (standard)	(a,b,c;0,0,0)	Pbam (55.353) (standard)	mmm (8.1.24)	F. Damay, J. Sottmann, F. Laine, L. Chaix, M. Poienar, P. Beran, E. Elkaim, F. Fauth, L. Nataf, A. Guesdon, A. Maignan and C. Martin, Physical Review B (2020) 101 094418. DOI: 10.1103/physrevb.101.094418
390	0.390 Y₂SrCu_0.6Co_1.4O_6.5		0,0,0	Ibam (72) (standard)	(a,b,c;0,0,0)	Ib'a'm (72.543) (standard)	m'm'm (8.4.27)	R.K. Li and C. Greaves, Physical Review B (2000) 62 14149-14156. DOI: 10.1103/physrevb.62.14149
391	0.391 Y₂SrCu_0.6Co_1.4O_6.5		0,0,0	Ibam (72) (standard)	(a,b,c;0,0,0)	Ib'a'm (72.543) (standard)	m'm'm (8.4.27)	R.K. Li and C. Greaves, Physical Review B (2000) 62 14149-14156. DOI: 10.1103/physrevb.62.14149
392	0.392 Fe₃(PO₄)₂(OH)₂		0,0,0	P2₁/c (14) (a,b,-a+c;0,0,0)	(a,b,c;0,0,0)	P2₁/c (14.75) (a,b,-a+c;0,0,0)	2/m (5.1.12)	M. Poienar, F. Damay, J. Rouquette, V. Ranieri, S. Malo, A. Maignan, E. Elkaïm, J. Haines and C. Martin, Journal of Solid State Chemistry (2020) 287 121357. DOI: 10.1016/j.jssc.2020.121357
393	0.393 Cu₄(OH)₆FBr		0,0,0	P63/m (176) (standard)	(a,b,c;0,0,0)	P2₁'/m' (11.54) (b,c,a;0,0,0)	2'/m' (5.5.16)	R.W. Smaha, W. He, J.M. Jiang, J. Wen, Y.-F. Jiang, J.P. Sheckelton, C.J. Titus, S.G. Wang, Y.-S. Chen, S.J. Teat, A.A. Aczel, Y. Zhao, G. Xu, J.W. Lynn, H.-C. Jiang and Y.S. Lee, npj Quantum Materials (2020) 5. DOI: 10.1038/s41535-020-0222-8
394	0.394 Cu₂CdB₂O₆		0,0,0	P2₁/c (14) (standard)	(a,b,c;0,0,0)	P2₁/c' (14.78) (standard)	2/m' (5.4.15)	M. Hase, A. Donni, V.Y. Pomjakushin, L. Keller, F. Gozzo, A. Cervellino and M. Kohno, Physical Review B (2009) 80 104405. DOI: 10.1103/physrevb.80.104405
395	0.395 MnPtGa		0,0,0	P6₃/mmc (194) (standard)	(a,a+2b,c;0,0,0)	Cm'c'm (63.462) (standard)	m'm'm (8.4.27)	J.A. Cooley, J.D. Bocarsly, E.C. Schueller, E.E. Levin, E.E. Rodriguez, A. Huq, S.H. Lapidus, S.D. Wilson and R. Seshadri, Physical Review Materials (2020) 4 044405. DOI: 10.1103/physrevmaterials.4.044405
396	0.396 MnPtGa		0,0,0	P6₃/mmc (194) (standard)	(a,a+2b,c;0,0,0)	Cm'c'm (63.462) (standard)	m'm'm (8.4.27)	J.A. Cooley, J.D. Bocarsly, E.C. Schueller, E.E. Levin, E.E. Rodriguez, A. Huq, S.H. Lapidus, S.D. Wilson and R. Seshadri, Physical Review Materials (2020) 4 044405. DOI: 10.1103/physrevmaterials.4.044405
397	0.397 Mn₃Si₂Te₆		0,0,0	P-31c (163) (standard)	(a,b,c;0,0,0)	C2'/c' (15.89) (a,a+2b,c;0,0,0)	2'/m' (5.5.16)	A.F. May, Y. Liu, S. Calder, D.S. Parker, T. Pandey, E. Cakmak, H. Cao, J. Yan and M.A. McGuire, Physical Review B (2017) 95 174440. DOI: 10.1103/physrevb.95.174440
398	0.398 Ca₂RuO₄		0,0,0	Pbca (61) (standard)	(a,b,c;0,0,0)	Pbca (61.433) (standard)	mmm (8.1.24)	D.G. Porter, V. Granata, F. Forte, S.D. Matteo, M. Cuoco, R. Fittipaldi, A. Vecchione and A. Bombardi, Physical Review B (2018) 98 125142. DOI: 10.1103/physrevb.98.125142
399	0.399 FeOOH		0,0,0	Pbnm (62) (b,c,a;0,0,0)	(a,b,c;0,0,0)	Pnma' (62.445) (b,c,a;0,0,0)	m'mm (8.3.26)	E. Zepeda-Alarcon, H. Nakotte, A. F. Gualtieri, G. King, K. Page, S. C. Vogel, H.-W. Wang, H.-R. Wenk et al., J. Appl. Cryst. (2014) 47 1983 - 1991 DOI: 10.1107/S1600576714022651
400	0.400 Sr₂Fe_1.9Co_0.1O_5.5		0,0,0	Cmmm (65) (standard)	(a,b,c;0,0,0)	Cm'm'm' (65.487) (standard)	m'm'm' (8.5.28)	E. Zepeda-Alarcon, H. Nakotte, A.F. Gualtieri, G. King, K. Page, S.C. Vogel, H.-W. Wang and H.-R. Wenk, Journal of Applied Crystallography (2014) 47 1983-1991. DOI: 10.1107/s1600576714022651
401	0.401 Sr₄Fe₄O₁₁		0,0,0	Cmmm (65) (standard)	(a,b,c;0,0,0)	Cm'm'm' (65.487) (standard)	m'm'm' (8.5.28)	M Schmidt, M Hofmann, S J Campbell et al., J. Phys.: Condens. Matter (2003) 15 8691 - 8701 DOI: 10.1088/0953-8984/15/50/0032003
402	0.402 Sr₄Fe₄O₁₁		0,0,0	Cmmm (65) (standard)	(a,b,c;0,0,0)	Cmm'm' (65.486) (standard)	m'm'm (8.4.27)	M Schmidt, M Hofmann, S J Campbell et al., J. Phys.: Condens. Matter (2003) 15 8691 - 8701 DOI: 10.1088/0953-8984/15/50/0032003
403	0.403 NdCo₂		0,0,0	Fd-3m (227) (standard)	(-1/2a+1/2b,1/2a+1/2b,-c;1/2,1/2,1/2)	Imm'a' (74.559) (-b,a,c;1/4,1/4,1/4)	m'm'm (8.4.27)	Y. Xiao, Q. Huang, Z. Ouyang, J. Lynn, J. Liang and G. Rao, Journal of Alloys and Compounds (2006) 420 29-33. DOI: 10.1016/j.jallcom.2005.10.073
404	0.404 Sr₃NaRuO₆		0,0,0	R-3c (167) (standard)	(a,b,c;0,0,0)	C2'/c' (15.89) (1/3a+2/3b+2/3c,-a,-1/3a-2/3b+1/3c;0,1/2,0)	2'/m' (5.5.16)	D.G. Porter, M.S. Senn, D.D. Khalyavin, A. Cortese, N. Waterfield-Price, P.G. Radaelli, P. Manuel, H.-C. zur-Loye, C. Mazzoli and A. Bombardi, Physical Review B (2016) 94 134404. DOI: 10.1103/physrevb.94.134404
405	0.405 CsCoF₄		0,0,0	I-4c2 (120) (standard)	(a,b,c;0,0,0)	I-4' (82.41) (standard)	-4' (10.3.34)	. DOI: 10.1016/0022-4596(91)90271 x-Journal of Solid State Chemistry
406	0.406 GdNiSi₃		0,0,0	Cmmm (65) (standard)	(a,b,c;0,0,0)	Cmmm' (65.484) (standard)	m'mm (8.3.26)	R. Tartaglia, F.R. Arantes, C.W. Galdino, D. Rigitano, U.F. Kaneko, M.A. Avila and E. Granado, Physical Review B (2019) 99 094428. DOI: 10.1103/physrevb.99.094428
407	0.407 NdSi		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pn'm'a (62.446) (standard)	m'm'm (8.4.27)	V. Nguyen, F. Tcheou and J. Rossat-Mignod, Solid State Communications (1977) 23 821-823. DOI: 10.1016/0038-1098(77)90960-7
408	0.408 PrSi		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pnm'a' (62.447) (standard)	m'm'm (8.4.27)	V. Nguyen, F. Tcheou and J. Rossat-Mignod, Solid State Communications (1977) 23 821-823. DOI: 10.1016/0038-1098(77)90960-7
409	0.409 TmNi		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pn'm'a (62.446) (standard)	m'm'm (8.4.27)	D. Gignoux, J. Rossat-Mignod and F. Tcheou, Physica Status Solidi (a) (1972) 14 483-488. DOI: 10.1002/pssa.2210140213
410	0.410 GdAlO₃		0,0,0	Pbnm (62) (b,c,a;0,0,0)	(a,b,c;0,0,0)	Pn'm'a' (62.449) (b,c,a;0,0,0)	m'm'm' (8.5.28)	S. Quezel, J. Rossat-Mignod and F. Tcheou, Solid State Communications (1982) 42 103-107. DOI: 10.1016/0038-1098(82)90361-1
411	0.411 Tb₅Ge₄		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pnm'a (62.444) (standard)	m'mm (8.3.26)	C. Ritter, L. Morellon, P.A. Algarabel, C. Magen and M.R. Ibarra, Physical Review B (2002) 65 094405. DOI: 10.1103/physrevb.65.094405
412	0.412 Tb₅Ge₄		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pnm'a (62.444) (standard)	m'mm (8.3.26)	C. Ritter, L. Morellon, P.A. Algarabel, C. Magen and M.R. Ibarra, Physical Review B (2002) 65 094405. DOI: 10.1103/physrevb.65.094405
413	0.413 UGeSe		0,0,0	I4/mmm (139) (standard)	(a,b,c;0,0,0)	I4/m'm'm' (139.539) (standard)	4/m'm'm' (15.7.59)	H. Ptasiewicz-Bąk, J. Leciejewicz and A. Zygmunt, Physica Status Solidi (a) (1978) 47 349-356. DOI: 10.1002/pssa.2210470202
414	0.414 AlFe₂B₂		0,0,0	Cmmm (65) (standard)	(a,b,c;0,0,0)	Cmm'm' (65.486) (standard)	m'm'm (8.4.27)	J. Cedervall, M.S. Andersson, T. Sarkar, E.K. Delczeg-Czirjak, L. Bergqvist, T.C. Hansen, P. Beran, P. Nordblad and M. Sahlberg, Journal of Alloys and Compounds (2016) 664 784-791. DOI: 10.1016/j.jallcom.2015.12.111
415	0.415 EuFe₂P₂		0,0,0	I4/mmm (139) (standard)	(a,b,c;0,0,0)	C2'/m' (12.62) (a-c,b,c;0,0,0)	2'/m' (5.5.16)	D.H. Ryan, J.M. Cadogan, S. Xu, Z. Xu and G. Cao, Physical Review B (2011) 83 132403. DOI: 10.1103/physrevb.83.132403
416	0.416 LaCrO₃		0,0,0	R-3c (167) (standard)	(a,b,c;0,0,0)	R-3c (167.103) (standard)	-3m (20.1.71)	J.-S. Zhou, J.A. Alonso, A. Muonz, M.T. Fernandez-Diaz and J.B. Goodenough, Physical Review Letters (2011) 106 057201. DOI: 10.1103/physrevlett.106.057201
417	0.417 LaCrO₃		0,0,0	Pnma (62) (b,c,a;0,0,0)	(a,b,c;0,0,0)	Pn'ma' (62.448) (b,c,a;0,0,0)	m'm'm (8.4.27)	J.-S. Zhou, J.A. Alonso, A. Muonz, M.T. Fernandez-Diaz and J.B. Goodenough, Physical Review Letters (2011) 106 057201. DOI: 10.1103/physrevlett.106.057201
418	0.418 K_0.8Fe_1.8Se₂		0,0,0	I4/m (87) (standard)	(a,b,c;0,0,0)	I4/m' (87.78) (standard)	4/m' (11.4.38)	W. Bao, Q.-Z. Huang, G.-F. Chen, D.-M. Wang, J.-B. He and Y.-M. Qiu, Chinese Physics Letters (2011) 28 086104. DOI: 10.1088/0256-307x/28/8/086104
419	0.419 Er₂Ge₂O₇		0,0,0	P4₁2₁2 (92) (standard)	(a,b,c;0,0,0)	P4₁'2₁2' (92.113) (standard)	4'22' (12.3.42)	K. M. Taddei, L. Sanjeewa, J. W. Kolis, A. S. Sefat, C. de la Cruz, D. M. Pajerowski1, PHYSICAL REVIEW MATERIALS (2019) 3 014405 DOI: 10.1103/PhysRevMaterials.3.014405
420	0.420 Sr₂LuRuO₆		0,0,0	P2₁/n (14) (a,b,-a+c;0,0,0)	(a,b,c;0,0,0)	P2₁/c (14.75) (a,b,-a+c;0,0,0)	2/m (5.1.12)	P. Battle and C. Jones, Journal of Solid State Chemistry (1989) 78 108-116. DOI: 10.1016/0022-4596(89)90133-3
421	0.421 EuMnSb₂		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pn'm'a' (62.449) (standard)	m'm'm' (8.5.28)	J.-R. Soh, P. Manuel, N.M.B. Schroter, C.J. Yi, F. Orlandi, Y.G. Shi, D. Prabhakaran and A.T. Boothroyd, Physical Review B (2019) 100 174406. DOI: 10.1103/physrevb.100.174406
422	0.422 EuMnSb₂		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	P2₁/m' (11.53) (standard)	2/m' (5.4.15)	J.-R. Soh, P. Manuel, N.M.B. Schroter, C.J. Yi, F. Orlandi, Y.G. Shi, D. Prabhakaran and A.T. Boothroyd, Physical Review B (2019) 100 174406. DOI: 10.1103/physrevb.100.174406
423	0.423 EuMnSb₂		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pn'm'a' (62.449) (standard)	m'm'm' (8.5.28)	D. Gong, S. Huang, F. Ye, X. Gui, J. Zhang, W. Xie and R. Jin, Physical Review B (2020) 101 224422. DOI: 10.1103/physrevb.101.224422
424	0.424 EuMnSb₂		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pn'm'a' (62.449) (standard)	m'm'm' (8.5.28)	D. Gong, S. Huang, F. Ye, X. Gui, J. Zhang, W. Xie and R. Jin, Physical Review B (2020) 101 224422. DOI: 10.1103/physrevb.101.224422
425	0.425 Na₂CoP₂O₇		0,0,0	Pna2₁ (33) (standard)	(a,b,c;0,0,0)	Pn'a2₁' (33.146) (standard)	m'm2' (7.3.22)	P. Barpanda, M. Avdeev, C.D. Ling, J. Lu and A. Yamada, Inorganic Chemistry (2012) 52 395-401. DOI: 10.1021/ic302191d
426	0.426 EuMnBi₂		0,0,0	I4/mmm (139) (standard)	(a,b,c;0,0,0)	I4'/m'm'm (139.536) (standard)	4'/m'm'm (15.5.57)	H. Masuda, H. Sakai, H. Takahashi, Y. Yamasaki, A. Nakao, T. Moyoshi, H. Nakao, Y. Murakami, T. Arima and S. Ishiwata, Physical Review B (2020) 101 174411. DOI: 10.1103/physrevb.101.174411
427	0.427 Sm₂Ti₂O₇		0,0,0	Fd-3m (227) (standard)	(a,b,c;0,0,0)	Fd-3m' (227.131) (standard)	m-3m' (32.4.121)	C. Mauws, A.M. Hallas, G. Sala, A.A. Aczel, P.M. Sarte, J. Gaudet, D. Ziat, J.A. Quilliam, J.A. Lussier, M. Bieringer, H.D. Zhou, A. Wildes, M.B. Stone, D. Abernathy, G.M. Luke, B.D. Gaulin and C.R. Wiebe, Physical Review B (2018) 98 100401. DOI: 10.1103/physrevb.98.100401
428	0.428 BaMn₂Si₂O₇		0,0,0	C2/c (15) (standard)	(a,b,c;0,0,0)	C2/c (15.85) (standard)	2/m (5.1.12)	J. Ma, C.D.D. Cruz, T. Hong, W. Tian, A.A. Aczel, S. Chi, J.-Q. Yan, Z.L. Dun, H.D. Zhou and M. Matsuda, Physical Review B (2013) 88 144405. DOI: 10.1103/physrevb.88.144405
429	0.429 CaCr_0.86Fe_3.14As₃		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pn'ma (62.443) (standard)	m'mm (8.3.26)	P. Manuel, L.C. Chapon, G. Trimarchi, I.S. Todorov, D.Y. Chung, B. Ouladdiaf, M.J. Gutmann, A.J. Freeman and M.G. Kanatzidis, Physical Review B (2013) 88 104414. DOI: 10.1103/physrevb.88.104414
430	0.430 Yb₃Pt₄		0,0,0	R-3 (148) (standard)	(a,b,c;0,0,0)	R-3' (148.19) (standard)	-3' (17.3.64)	Y. Janssen, M.S. Kim, K.S. Park, L.S. Wu, C. Marques, M.C. Bennett, Y. Chen, J. Li, Q. Huang, J.W. Lynn and M.C. Aronson, Physical Review B (2010) 81 064401. DOI: 10.1103/physrevb.81.064401
431	0.431 CuB₂O₄		0,0,0	I-42d (122) (standard)	(a,b,c;0,0,0)	P1 (1.1) (1/2a+1/2b+1/2c,-1/2a+1/2b-1/2c,-1/2a-1/2b+1/2c;0,0,0)	1 (1.1.1)	M. Boehm, B. Roessli, J. Schefer, A.S. Wills, B. Ouladdiaf, E. Lelievre-Berna, U. Staub and G.A. Petrakovskii, Physical Review B (2003) 68 024405. DOI: 10.1103/physrevb.68.024405
432	0.432 KMnF₃		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pn'ma' (62.448) (standard)	m'm'm (8.4.27)	K.S. Knight, D.D. Khalyavin, P. Manuel, C.L. Bull and P. McIntyre, Journal of Alloys and Compounds (2020) 842 155935. DOI: 10.1016/j.jallcom.2020.155935
433	0.433 KMnF₃		0,0,0	I4/mcm (140) (standard)	(a,b,c;0,0,0)	I4/mcm (140.541) (standard)	4/mmm (15.1.53)	K.S. Knight, D.D. Khalyavin, P. Manuel, C.L. Bull and P. McIntyre, Journal of Alloys and Compounds (2020) 842 155935. DOI: 10.1016/j.jallcom.2020.155935
434	0.434 K₂ReI₆		0,0,0	P2₁/n (14) (a,b,-a+c;0,0,0)	(a,b,c;0,0,0)	P2₁/c (14.75) (a,b,-a+c;0,0,0)	2/m (5.1.12)	X. Gui, S. Calder, H. Cao, T. Yu, W. Xie et al., J. Phys. Chem. C (2019) 123 1645 - 1652 DOI: 10.1021/acs.jpcc.8b1137
435	0.435 Pb₅Fe₃TiO₁₁Cl		1/2,1/2,0	P4/mmm (123) (standard)	(2a,2b,c;0,0,0)	P_Bmma (51.302) (-1/2a+1/2b,c,1/2a+1/2b;1/4,1/2,0)	mmm1' (8.2.25)	M. Batuk, D. Batuk, A.M. Abakumov and J. Hadermann, Journal of Solid State Chemistry (2014) 215 245-252. DOI: 10.1016/j.jssc.2014.04.002
436	0.436 TbNi₄Si		0,0,0	Cmmm (65) (standard)	(a,b,c;0,0,0)	Cmm'm' (65.486) (b,-a,c;0,0,0)	m'm'm (8.4.27)	A. Morozkin, F. Yuan, Y. Mozharivskyj and O. Isnard, Journal of Magnetism and Magnetic Materials (2014) 368 121-125. DOI: 10.1016/j.jmmm.2014.04.057
437	0.437 Ho₃NiGe₂		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pnm'a' (62.447) (standard)	m'm'm (8.4.27)	A. V. Morozkin, J. Yao, F. Yuan, Y. Mozharivsky, O. Isnard et al., Journal of Magnetism and Magnetic Materials (2014) 360 200 - 204 DOI: 10.1016/j.jmmm.2014.02.038
438	0.438 Pr₃CoGe₂		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pnm'a' (62.447) (standard)	m'm'm (8.4.27)	P. Manfrinetti, A. Morozkin, O. Isnard, F. Wrubl, Y. Mozharivskyj and V. Svitlyk, Intermetallics (2011) 19 321-326. DOI: 10.1016/j.intermet.2010.10.013
439	0.439 Tb₃NiGe₂		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pn'ma' (62.448) (standard)	m'm'm (8.4.27)	A. Morozkin, J. Yao, Y. Mozharivskyj and O. Isnard, Journal of Magnetism and Magnetic Materials (2012) 324 2977-2982. DOI: 10.1016/j.jmmm.2012.04.023
440	0.440 SrCuTe₂O₆		0,0,0	P4₁32 (213) (standard)	(a,b,c;0,0,0)	P4₁32 (213.63) (standard)	432 (30.1.112)	P. Saeaun, Y. Zhao, P. Piyawongwatthana, T.J. Sato, F.C. Chou, M. Avdeev, G. Gitgeatpong and K. Matan, Physical Review B (2020) 102 134407. DOI: 10.1103/physrevb.102.134407
441	0.441 Fe₄Nb₂O₉		0,0,0	P-3c1 (165) (standard)	(a,b,c;0,0,0)	C2/c' (15.88) (2a+b,b,c;0,0,0)	2/m' (5.4.15)	L. Ding, M. Lee, E.S. Choi, J. Zhang, Y. Wu, R. Sinclair, B.C. Chakoumakos, Y. Chai, H. Zhou and H. Cao, Physical Review Materials (2020) 4 084403. DOI: 10.1103/physrevmaterials.4.084403
442	0.442 Fe₄Nb₂O₉		0,0,0	C2/c (15) (standard)	(a,b,c;0,0,0)	C2/c' (15.88) (standard)	2/m' (5.4.15)	R. Jana, D. Sheptyakov, X. Ma, J.A. Alonso, M. Pi, A. Munoz, Z. Liu, L. Zhao, N. Su, S. Jin, X. Ma, K. Sun, D. Chen, S. Dong, Y. Chai, S. Li and J. Cheng, Physical Review B (2019) 100 094109. DOI: 10.1103/physrevb.100.094109
443	0.443 Fe₄Nb₂O₉		0,0,0	P-3c1 (165) (standard)	(a,b,c;0,0,0)	C2/c' (15.88) (2a+b,b,c;0,0,0)	2/m' (5.4.15)	R. Jana, D. Sheptyakov, X. Ma, J.A. Alonso, M. Pi, A. Munoz, Z. Liu, L. Zhao, N. Su, S. Jin, X. Ma, K. Sun, D. Chen, S. Dong, Y. Chai, S. Li and J. Cheng, Physical Review B (2019) 100 094109. DOI: 10.1103/physrevb.100.094109
444	0.444 YbCl₃		0,0,0	C2/m (12) (standard)	(a,b,c;0,0,0)	C2'/m (12.60) (standard)	2'/m (5.3.14)	J. Xing, E. Feng, Y. Liu, E. Emmanouilidou, C. Hu, J. Liu, D. Graf, A.P. Ramirez, G. Chen, H. Cao and N. Ni, Physical Review B (2020) 102 014427. DOI: 10.1103/physrevb.102.014427
445	0.445 MnCoGe		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pn'm'a (62.446) (standard)	m'm'm (8.4.27)	X. Miao, Y. Gong, L. Caron, Y. You, G. Xu, D. Sheptyakov, P. Manuel, F. Qian, Y. Zhang, F. Xu, N. van Dijk and E. Bruck, Physical Review Materials (2020) 4 104407. DOI: 10.1103/physrevmaterials.4.104407
446	0.446 MnCoGeB_0.05		0,0,0	P6₃/mmc (194) (standard)	(-c,-a,a+2b;1/2,1/2,0)	Cm'c'm (63.462) (b,c,a;0,1/4,1/4)	m'm'm (8.4.27)	X. Miao, Y. Gong, L. Caron, Y. You, G. Xu, D. Sheptyakov, P. Manuel, F. Qian, Y. Zhang, F. Xu, N. van Dijk and E. Bruck, Physical Review Materials (2020) 4 104407. DOI: 10.1103/physrevmaterials.4.104407
447	0.447 MnCoGeB_0.05		0,0,0	P6₃/mmc (194) (standard)	(a,b,c;0,0,0)	P6₃/mm'c' (194.270) (standard)	6/mm'm' (27.6.105)	X. Miao, Y. Gong, L. Caron, Y. You, G. Xu, D. Sheptyakov, P. Manuel, F. Qian, Y. Zhang, F. Xu, N. van Dijk and E. Bruck, Physical Review Materials (2020) 4 104407. DOI: 10.1103/physrevmaterials.4.104407
448	0.448 Ce₄Ge₃		0,0,0	I-43d (220) (standard)	(a,b,c;0,0,0)	I-42d (122.333) (b,-a,c;0,1/4,7/8)	-42m (14.1.48)	A. Morozkin, O. Isnard, R. Nirmala and S. Malik, Journal of Alloys and Compounds (2009) 486 497-500. DOI: 10.1016/j.jallcom.2009.06.191
449	0.449 Tb₂Pt		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	P2₁'/m' (11.54) (standard)	2'/m' (5.5.16)	A. Castets, D. Gignoux, J.C. Gomez-Sal, F. Rodriguez-Gonzalez and E. Roudaut, physica status solidi (a) (1982) 73 475-481. DOI: 10.1002/pssa.2210730222
450	0.450 Nd₅Ge₄		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pnm'a' (62.447) (standard)	m'm'm (8.4.27)	P. Schobinger-Papamantellos and A. Niggli, Journal of Physics and Chemistry of Solids (1981) 42 583-586. DOI: 10.1016/0022-3697(81)90106-2
451	0.451 DyRuAsO		0,0,0	Pmmn (59) (standard)	(a,b,c;0,0,0)	Pm'mn (59.407) (standard)	m'mm (8.3.26)	M.A. McGuire, V.O. Garlea, A.F. May and B.C. Sales, Physical Review B (2014) 90 014425. DOI: 10.1103/physrevb.90.014425
452	0.452 TbRuAsO		0,0,0	P4/nmm (129) (standard)	(a,b,c;0,0,0)	Pm'mn (59.407) (standard)	m'mm (8.3.26)	M.A. McGuire, V.O. Garlea, A.F. May and B.C. Sales, Physical Review B (2014) 90 014425. DOI: 10.1103/physrevb.90.014425
453	0.453 DyCoSi₂		0,0,0	Cmcm (63) (standard)	(a,b,c;0,0,0)	Cm'cm (63.459) (standard)	m'mm (8.3.26)	R. Duraj, B. Penc and A. Szytula, Acta Physica Polonica A (2014) 125 1176-1178. DOI: 10.12693/aphyspola.125.1176
454	0.454 PrScSb		1,1,1	I4/mmm (139) (standard)	(a,b,c;0,0,0)	P_I4/mnc (128.410) (standard)	4/mmm1' (15.2.54)	C. Ritter, S.K. Dhar, R. Kulkarni, A. Provino, D. Paudyal, P. Manfrinetti and K.A. Gschneidner, Journal of Physics: Condensed Matter (2014) 26 366001. DOI: 10.1088/0953-8984/26/36/366001
455	0.455 RbFeO₂		0,0,0	Pbca (61) (standard)	(a,b,c;0,0,0)	Pb'c'a' (61.437) (standard)	m'm'm' (8.5.28)	D. Sheptyakov, N.Z. Ali and M. Jansen, Journal of Physics: Condensed Matter (2010) 22 426001. DOI: 10.1088/0953-8984/22/42/426001
456	0.456 RbFeO₂		0,0,0	Fd-3m (227) (standard)	(a,b,c;0,0,0)	I4₁'/a'm'd (141.556) (1/2a+1/2b,1/2a-1/2b,-c;1/4,1/2,3/4)	4'/m'm'm (15.5.57)	D. Sheptyakov, N.Z. Ali and M. Jansen, Journal of Physics: Condensed Matter (2010) 22 426001. DOI: 10.1088/0953-8984/22/42/426001
457	0.457 CsFeO₂		0,0,0	Pbca (61) (standard)	(a,b,c;0,0,0)	Pb'c'a' (61.437) (standard)	m'm'm' (8.5.28)	D. Sheptyakov, N.Z. Ali and M. Jansen, Journal of Physics: Condensed Matter (2010) 22 426001. DOI: 10.1088/0953-8984/22/42/426001
458	0.458 CsFeO₂		0,0,0	Fd-3m (227) (standard)	(a,b,c;0,0,0)	I4₁'/a'm'd (141.556) (1/2a+1/2b,1/2a-1/2b,-c;1/4,1/2,3/4)	4'/m'm'm (15.5.57)	D. Sheptyakov, N.Z. Ali and M. Jansen, Journal of Physics: Condensed Matter (2010) 22 426001. DOI: 10.1088/0953-8984/22/42/426001
459	0.459 KFeO₂		0,0,0	Pbca (61) (standard)	(a,b,c;0,0,0)	Pb'ca (61.435) (standard)	m'mm (8.3.26)	D. Sheptyakov, N.Z. Ali and M. Jansen, Journal of Physics: Condensed Matter (2010) 22 426001. DOI: 10.1088/0953-8984/22/42/426001
460	0.460 KFeO₂		0,0,0	Pbca (61) (standard)	(a,b,c;0,0,0)	Pb'ca (61.435) (b,c,a;0,0,0)	m'mm (8.3.26)	Z. Tomkowicz and A. Szytula, Journal of Physics and Chemistry of Solids (1977) 38 1117-1123. DOI: 10.1016/0022-3697(77)90037-3
461	0.461 CoRh₂O₄		0,0,0	Fd-3m (227) (a,b,c;1/8,1/8,1/8)	(a,b,c;0,0,0)	I4₁'/a'm'd (141.556) (1/2a+1/2b,1/2a-1/2b,-c;3/8,5/8,7/8)	4'/m'm'm (15.5.57)	L. Ge, J. Flynn, J.A.M. Paddison, M.B. Stone, S. Calder, M.A. Subramanian, A.P. Ramirez and M. Mourigal, Physical Review B (2017) 96 064413. DOI: 10.1103/physrevb.96.064413
462	0.462 MnAl₂O₄		0,0,0	Fd-3m (227) (standard)	(a,b,c;1/8,1/8,1/8)	I4₁'/a'm'd (141.556) (1/2a+1/2b,1/2a-1/2b,-c;1/8,3/8,5/8)	4'/m'm'm (15.5.57)	A. Krimmel, V. Tsurkan, D. Sheptyakov and A. Loidl, Physica B: Condensed Matter (2006) 378-380 583-584. DOI: 10.1016/j.physb.2006.01.413
463	0.463 Co₃O₄		0,0,0	Fd-3m (227) (a,b,c;1/8,1/8,1/8)	(a,b,c;0,0,0)	I4₁'/a'm'd (141.556) (1/2a+1/2b,1/2a-1/2b,-c;3/8,5/8,7/8)	4'/m'm'm (15.5.57)	W. Roth, Journal of Physics and Chemistry of Solids (1964) 25 1-10. DOI: 10.1016/0022-3697(64)90156-8
464	0.464 BaMn₂P₂		0,0,0	I4/mmm (139) (standard)	(a,b,c;0,0,0)	I4'/m'm'm (139.536) (standard)	4'/m'm'm (15.5.57)	S.L. Brock, J. Greedan and S.M. Kauzlarich, Journal of Solid State Chemistry (1994) 113 303-311. DOI: 10.1006/jssc.1994.1375
465	0.465 HoCr₂Si₂		0,0,0	I4/mmm (139) (standard)	(a,b,c;0,0,0)	I4'/m'm'm (139.536) (standard)	4'/m'm'm (15.5.57)	O. Moze, M. Hofmann and K. Buschow, Journal of Alloys and Compounds (2000) 308 60-63. DOI: 10.1016/s0925-8388(00)00985-3
466	0.466 ThCr₂Si₂		0,0,0	I4/mmm (139) (standard)	(a,b,c;0,0,0)	Im'mm (71.535) (b,-a,c;0,0,0)	m'mm (8.3.26)	A. Szytula, B. Penc, M. Hofmann and J. Przewoznik, Solid State Communications (2012) 152 1027-1029. DOI: 10.1016/j.ssc.2012.03.015
467	0.467 TbPO₄		0,0,0	I4₁/amd (141) (standard)	(a,b,c;0,0,0)	I4₁'/a'm'd (141.556) (standard)	4'/m'm'm (15.5.57)	W. N�gele, D. Hohlwein and G. Domann, Zeitschrift f�r Physik B Condensed Matter (1980) 39 305-310. DOI: 10.1007/bf01305829
468	0.468 ErB₄		0,0,0	P4/mbm (127) (standard)	(a,b,c;0,0,0)	Pb'am (55.355) (standard)	m'mm (8.3.26)	G. Will, W. Schäfer, F. Pfeiffer, F. Elf and J. Etourneau, Journal of the Less Common Metals (1981) 82 349-355. DOI: 10.1016/0022-5088(81)90238-1
469	0.469 TbB₄		0,0,0	P4/mbm (127) (standard)	(a,b,c;0,0,0)	Pb'a'm' (55.359) (standard)	m'm'm' (8.5.28)	G. Will, W. Schäfer, F. Pfeiffer, F. Elf and J. Etourneau, Journal of the Less Common Metals (1981) 82 349-355. DOI: 10.1016/0022-5088(81)90238-1
470	0.470 BaMn₂Sb₂		0,0,0	I4/mmm (139) (standard)	(a,b,c;0,0,0)	I4'/m'm'm (139.536) (standard)	4'/m'm'm (15.5.57)	Q. Zhang, Z. Diao, H. Cao, A. Saleheen, R. Chapai, D. Gong, S. Stadler and R. Jin, Physical Review B (2019) 99 184416. DOI: 10.1103/physrevb.99.184416
471	0.471 Ba₂Mn₃Sb₂O₂		0,0,0	I4/mmm (139) (standard)	(a,b,c;0,0,0)	I4'/m'm'm (139.536) (standard)	4'/m'm'm (15.5.57)	Q. Zhang, Z. Diao, H. Cao, A. Saleheen, R. Chapai, D. Gong, S. Stadler and R. Jin, Physical Review B (2019) 99 184416. DOI: 10.1103/physrevb.99.184416
472	0.472 LaMn₂Si₂		0,0,0	I4/mmm (139) (standard)	(a,b,c;0,0,0)	I4'/m'm'm (139.536) (standard)	4'/m'm'm (15.5.57)	G. Venturini, R. Welter, E. Ressouche and B. Malaman, Journal of Alloys and Compounds (1994) 210 213-220. DOI: 10.1016/0925-8388(94)90141-4
473	0.473 LaMn₂Si₂		0,0,0	I4/mmm (139) (standard)	(a,b,c;0,0,0)	Im'm2' (44.231) (b,c,a;0,0,0)	m'm2' (7.3.22)	G. Venturini, R. Welter, E. Ressouche and B. Malaman, Journal of Alloys and Compounds (1994) 210 213-220. DOI: 10.1016/0925-8388(94)90141-4
474	0.474 EuMn₂Ge₂		0,0,0	I4/mmm (139) (standard)	(a,b,c;0,0,0)	I4'/m'm'm (139.536) (standard)	4'/m'm'm (15.5.57)	M. Hofmann, S.J. Campbell and A.V.J. Edge, Physical Review B (2004) 69 174432. DOI: 10.1103/physrevb.69.174432
475	0.475 Sr₂TbIrO₆		0,0,0	P2₁/n (14) (a,b,-a+c;0,0,0)	(a,b,c;0,0,0)	P2₁/c (14.75) (a,b,-a+c;0,0,0)	2/m (5.1.12)	D. Harada, M. Wakeshima, Y. Hinatsu, K. Ohoyama and Y. Yamaguchi, Journal of Physics: Condensed Matter (2000) 12 3229-3239. DOI: 10.1088/0953-8984/12/14/302
476	0.476 Cs₂[FeCl₅(H₂O)]		0,0,0	I2/c (15) (a+c,b,c;0,0,0)	(a,b,c;0,0,0)	C2'/c (15.87) (a+c,b,c;0,0,0)	2'/m (5.3.14)	T. Frohlich, J. Stein, L. Bohaty, P. Becker, A. Gukasov and M. Braden, Journal of Physics: Condensed Matter (2018) 30 295403. DOI: 10.1088/1361-648x/aaca6c
477	0.477 Mn₄Ta₂O₉		0,0,0	P-3c1 (165) (standard)	(a,b,c;0,0,0)	P-3'c'1 (165.94) (standard)	-3'm' (20.4.74)	N. Narayanan, A. Senyshyn, D. Mikhailova, T. Faske, T. Lu, Z. Liu, B. Weise, H. Ehrenberg, R.A. Mole, W.D. Hutchison, H. Fuess, G.J. McIntyre, Y. Liu and D. Yu, Physical Review B (2018) 98 134438. DOI: 10.1103/physrevb.98.134438
478	0.478 SmCrO₃		0,0,0	Pnma (62) (b,c,a;0,0,0)	(a,b,c;0,0,0)	Pnma (62.441) (b,c,a;0,0,0)	mmm (8.1.24)	M. Tripathi, R.J. Choudhary, D.M. Phase, T. Chatterji and H.E. Fischer, Physical Review B (2017) 96 174421. DOI: 10.1103/physrevb.96.174421
479	0.479 SmCrO₃		0,0,0	Pnma (62) (b,c,a;0,0,0)	(a,b,c;0,0,0)	Pn'ma' (62.448) (b,c,a;0,0,0)	m'm'm (8.4.27)	M. Tripathi, R.J. Choudhary, D.M. Phase, T. Chatterji and H.E. Fischer, Physical Review B (2017) 96 174421. DOI: 10.1103/physrevb.96.174421
480	0.480 HoNi		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pnm'a' (62.447) (standard)	m'm'm (8.4.27)	X.-Q. Zheng and B.-G. Shen, Chinese Physics B (2017) 26 027501. DOI: 10.1088/1674-1056/26/2/027501
481	0.481 HoNi		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	P2₁'/c' (14.79) (b,c,a;0,0,0)	2'/m' (5.5.16)	X.-Q. Zheng and B.-G. Shen, Chinese Physics B (2017) 26 027501. DOI: 10.1088/1674-1056/26/2/027501
482	0.482 SrMn₂As₂		0,0,0	P-3m1 (164) (standard)	(a,b,c;0,0,0)	C2'/m (12.60) (-a-2b,a,c;0,0,0)	2'/m (5.3.14)	P. Das, N.S. Sangeetha, A. Pandey, Z.A. Benson, T.W. Heitmann, D.C. Johnston, A.I. Goldman and A. Kreyssig, Journal of Physics: Condensed Matter (2016) 29 035802. DOI: 10.1088/0953-8984/29/3/035802
483	0.483 YbMn₂Sb₂		0,0,0	P-3m1 (164) (standard)	(a,b,c;0,0,0)	P-1' (2.6) (standard)	-1' (2.3.5)	A. Morozkin, O. Isnard, P. Henry, S. Granovsky, R. Nirmala and P. Manfrinetti, Journal of Alloys and Compounds (2006) 420 34-36. DOI: 10.1016/j.jallcom.2005.10.051
484	0.484 U₂N₂S		0,0,0	P-3m1 (164) (standard)	(a,b,c;0,0,0)	P-3'm'1 (164.88) (standard)	-3'm' (20.4.74)	J. Leciejewicz, Z. Zolnierek, S. Ligenza, R. Troc and H. Ptasiewicz, Journal of Physics C: Solid State Physics (1975) 8 1697-1704. DOI: 10.1088/0022-3719/8/11/021
485	0.485 U₂N₂Se		0,0,0	P-3m1 (164) (standard)	(a,b,c;0,0,0)	P-3'm'1 (164.88) (standard)	-3'm' (20.4.74)	J. Leciejewicz, Z. Zolnierek, S. Ligenza, R. Troc, H. Ptasiewicz et al., J. Phys. C: Solid State Phys. (1975) 8 1697 - 1704 DOI: 10.1088/0022-3719/8/11/021
486	0.486 ErCr₂Si₂		0,0,0	I4/mmm (139) (standard)	(a,b,c;0,0,0)	I4'/m'm'm (139.536) (standard)	4'/m'm'm (15.5.57)	O. Moze, M. Hofmann, J.M. Cadogan, K.H.J. Buschow and D.H. Ryan, The European Physical Journal B - Condensed Matter (2003) 36 511-518. DOI: 10.1140/epjb/e2004-00006-4
487	0.487 ErCr₂Si₂		0,0,0	I4/mmm (139) (standard)	(a,b,c;0,0,0)	Im'm'2 (44.232) (c,b,-a;0,0,0)	m'm'2 (7.4.23)	O. Moze, M. Hofmann, J.M. Cadogan, K.H.J. Buschow and D.H. Ryan, The European Physical Journal B - Condensed Matter (2003) 36 511-518. DOI: 10.1140/epjb/e2004-00006-4
488	0.488 YbMnO₃		0,0,0	P6₃cm (185) (standard)	(a,b,c;0,0,0)	P6₃'c'm (185.199) (standard)	6'mm' (25.3.93)	S. Chattopadhyay, V. Simonet, V. Skumryev, A.A. Mukhin, V.Y. Ivanov, M.I. Aroyo, D.Z. Dimitrov, M. Gospodinov and E. Ressouche, Physical Review B (2018) 98 134413. DOI: 10.1103/physrevb.98.134413
489	0.489 YbMnO₃		0,0,0	P6₃cm (185) (standard)	(a,b,c;0,0,0)	P6₃'c'm (185.199) (standard)	6'mm' (25.3.93)	S. Chattopadhyay, V. Simonet, V. Skumryev, A.A. Mukhin, V.Y. Ivanov, M.I. Aroyo, D.Z. Dimitrov, M. Gospodinov and E. Ressouche, Physical Review B (2018) 98 134413. DOI: 10.1103/physrevb.98.134413
490	0.490 YbMnO₃		0,0,0	P6₃cm (185) (standard)	(a,b,c;0,0,0)	P6₃c'm' (185.201) (standard)	6m'm' (25.4.94)	S. Chattopadhyay, V. Simonet, V. Skumryev, A.A. Mukhin, V.Y. Ivanov, M.I. Aroyo, D.Z. Dimitrov, M. Gospodinov and E. Ressouche, Physical Review B (2018) 98 134413. DOI: 10.1103/physrevb.98.134413
491	0.491 NdB₄		0,0,0	P4/mbm (127) (standard)	(a,b,c;0,0,0)	P4/m' (83.46) (standard)	4/m' (11.4.38)	H. Yamauchi, N. Metoki, R. Watanuki, K. Suzuki, H. Fukazawa, S. Chi and J.A. Fernandez-Baca, Journal of the Physical Society of Japan (2017) 86 044705. DOI: 10.7566/jpsj.86.044705
492	0.492 NdB₄		0,0,0	P4/mbm (127) (standard)	(a,b,c;0,0,0)	P2₁'/c (14.77) (c,a,b;0,0,0)	2'/m (5.3.14)	N. Metoki, H. Yamauchi, M. Matsuda, J.A. Fernandez-Baca, R. Watanuki and M. Hagihala, Physical Review B (2018) 97 174416. DOI: 10.1103/physrevb.97.174416
493	0.493 Ho(Co_0.667Ga_0.333)₂		0,0,0	P6₃/mmc (194) (standard)	(a,b,c;0,0,0)	C2'/c' (15.89) (a,a+2b,c;0,0,0)	2'/m' (5.5.16)	F. Yuan, J.E. Greedan, C. Boyer and Y. Mozharivskyj, Journal of Solid State Chemistry (2018) 257 1-8. DOI: 10.1016/j.jssc.2017.09.019
494	0.494 Er(Co_0.667Ga_0.333)₂		0,0,0	P6₃/mmc (194) (standard)	(a,b,c;0,0,0)	P6₃/mm'c' (194.270) (standard)	6/mm'm' (27.6.105)	F. Yuan, J.E. Greedan, C. Boyer and Y. Mozharivskyj, Journal of Solid State Chemistry (2018) 257 1-8. DOI: 10.1016/j.jssc.2017.09.019
495	0.495 LaMn₂Si₂		0,0,0	I4/mmm (139) (standard)	(a,b,c;0,0,0)	Im'm2' (44.231) (a,-c,b;0,0,0)	m'm2' (7.3.22)	E. Gerasimov, N. Mushnikov, P. Terentev and A. Pirogov, Journal of Alloys and Compounds (2018) 731 397-402. DOI: 10.1016/j.jallcom.2017.10.050
496	0.496 LaMn₂Si₂		0,0,0	I4/mmm (139) (standard)	(a,b,c;0,0,0)	Im'm2' (44.231) (a,-c,b;0,0,0)	m'm2' (7.3.22)	E. Gerasimov, N. Mushnikov, P. Terentev and A. Pirogov, Journal of Alloys and Compounds (2018) 731 397-402. DOI: 10.1016/j.jallcom.2017.10.050
497	0.497 LaMn₂Si₂		0,0,0	I4/mmm (139) (standard)	(a,b,c;0,0,0)	Im'm2' (44.231) (b,c,a;0,0,0)	m'm2' (7.3.22)	M. Hofmann, S. Campbell, X.L. Zhao, Y. Nakayama and R. Cywinski, Materials Science Forum (1996) 228-231 587-594. DOI: 10.4028/www.scientific.net/msf.228-231.587
498	0.498 LaMn₂Si₂		0,0,0	I4/mmm (139) (standard)	(a,b,c;0,0,0)	I4'/m'm'm (139.536) (standard)	4'/m'm'm (15.5.57)	M. Hofmann, S. Campbell, X.L. Zhao, Y. Nakayama and R. Cywinski, Materials Science Forum (1996) 228-231 587-594. DOI: 10.4028/www.scientific.net/msf.228-231.587
499	0.499 UCr₂Si₂C		0,0,0	P4/mmm (123) (standard)	(a,b,c;0,0,0)	Pm'm'm (47.252) (-c,b,a;0,0,0)	m'm'm (8.4.27)	P. Lemoine, A. Verniere, M. Pasturel, G. Venturini and B. Malaman, Inorganic Chemistry (2018) 57 2546-2557. DOI: 10.1021/acs.inorgchem.7b02901
500	0.500 Ca₂FeMn_0.5W_0.5O₆		0,0,0	P2₁/n (14) (a,b,-a+c;0,0,0)	(a,b,c;0,0,0)	P2₁'/c' (14.79) (a,b,-a+c;0,0,0)	2'/m' (5.5.16)	C.A. Garcia-Ramos, S. Larregola, M. Retuerto, M.T. Fernandez-Diaz, K. Krezhov and J.A. Alonso, Solid State Sciences (2018) 80 72-80. DOI: 10.1016/j.solidstatesciences.2018.03.022
501	0.501 LiFe₂F₆		0,0,0	P4₂/mnm (136) (standard)	(a,b,c;0,0,0)	P4₂'/mnm' (136.499) (standard)	4'/mm'm (15.4.56)	G. Shachar, J. Makovsky and H. Shaked, Physical Review B (1972) 6 1968-1974. DOI: 10.1103/physrevb.6.1968
502	0.502 La₂Ni_1.19Os_0.81O₆		0,0,0	P2₁/c (14) (a,b,-a+c;0,0,0)	(a,b,c;0,0,0)	P2₁'/c' (14.79) (a,b,-a+c;0,0,0)	2'/m' (5.5.16)	H.L. Feng, M. Reehuis, P. Adler, Z. Hu, M. Nicklas, A. Hoser, S.-C. Weng, C. Felser and M. Jansen, Physical Review B (2018) 97 184407. DOI: 10.1103/physrevb.97.184407
503	0.503 K_1.62Fe₄O_6.62(OH)_0.38		0,0,0	P-31c (163) (standard)	(a,b,c;0,0,0)	P-31c (163.79) (standard)	-3m (20.1.71)	R. Albrecht, J. Hunger, T. Block, R. Pottgen, A. Senyshyn, T. Doert and M. Ruck, ChemistryOpen (2019) 8 74-83. DOI: 10.1002/open.201800229
504	0.504 NaCrSi₂O₆		0,0,0	C2/c (15) (standard)	(a,b,c;0,0,0)	P-1' (2.6) (1/2a+1/2b,-1/2a+1/2b,c;0,0,0)	-1' (2.3.5)	G. Nenert, I. Kim, M. Isobe, C. Ritter, A.N. Vasiliev, K.H. Kim and Y. Ueda, Physical Review B (2010) 81 184408. DOI: 10.1103/physrevb.81.184408
505	0.505 Pb₂VO(PO₄)₂		0,0,0	P2₁/a (14) (-c,b,a;0,0,0)	(a,b,c;0,0,0)	P2₁/c' (14.78) (-c,b,a;0,0,0)	2/m' (5.4.15)	S. Bettler, F. Landolt, Ö.M. Aksoy, Z. Yan, S. Gvasaliya, Y. Qiu, E. Ressouche, K. Beauvois, S. Raymond, A.N. Ponomaryov, S.A. Zvyagin and A. Zheludev, Physical Review B (2019) 99 184437. DOI: 10.1103/physrevb.99.184437
506	0.506 Cs₂Cu₃SnF₁₂		0,0,0	P2₁/n (14) (a,b,-a+c;0,0,0)	(a,b,c;0,0,0)	P2₁'/c' (14.79) (a,b,-a+c;0,0,0)	2'/m' (5.5.16)	K. Matan, T. Ono, G. Gitgeatpong, K. de Roos, P. Miao, S. Torii, T. Kamiyama, A. Miyata, A. Matsuo, K. Kindo, S. Takeyama, Y. Nambu, P. Piyawongwatthana, T.J. Sato and H. Tanaka, Physical Review B (2019) 99 224404. DOI: 10.1103/physrevb.99.224404
507	0.507 Mn₄Nb₂O₉		0,0,0	P-3c1 (165) (standard)	(a,b,c;0,0,0)	P-3'c'1 (165.94) (standard)	-3'm' (20.4.74)	E. Bertaut, L. Corliss, F. Forrat, R. Aleonard and R. Pauthenet, Journal of Physics and Chemistry of Solids (1961) 21 234-251. DOI: 10.1016/0022-3697(61)90103-2
508	0.508 FeMnO₃		0,0,0	Ia-3 (206) (standard)	(a,b,c;0,0,0)	Ib'c'a (73.551) (standard)	m'm'm (8.4.27)	S. Rayaprol, S. D. Kaushik, P. D. Babu, V. Siruguri et al., AIP Conf. Proc. (2013) 1512 1132 - 1133 DOI: 10.1063/1.4791446
509	0.509 BaFe₁₂O₁₉		0,0,0	P6₃/mmc (194) (standard)	(a,b,c;0,0,0)	P6₃/mm'c' (194.270) (standard)	6/mm'm' (27.6.105)	A. Collomb, P. Wolfers and X. Obradors, Journal of Magnetism and Magnetic Materials (1986) 62 57-67. DOI: 10.1016/0304-8853(86)90734-1
510	0.510 Mn₂NiReO₆		0,0,0	P2₁/n (14) (a,b,-a+c;0,0,0)	(a,b,c;0,0,0)	P2₁/c (14.75) (a,b,-a+c;0,0,0)	2/m (5.1.12)	E. Solana-Madruga, K.N. Alharbi, M. Herz, P. Manuel and J.P. Attfield, Chemical Communications (2020) 56 12574-12577. DOI: 10.1039/d0cc04756b
511	0.511 Co₄Ta₂O₉		0,0,0	P-3c1 (165) (standard)	(a,b,c;0,0,0)	C2'/c (15.87) (2a+b,b,c;0,0,0)	2'/m (5.3.14)	S. Choi, D.G. Oh, M.J. Gutmann, S. Pan, G. Kim, K. Son, J. Kim, N. Lee, S.-W. Cheong, Y.J. Choi and V. Kiryukhin, Physical Review B (2020) 102 214404. DOI: 10.1103/physrevb.102.214404
512	0.512 Mn₃As₂		0,0,0	C2/m (12) (standard)	(a,b,c;0,0,0)	C2/m (12.58) (standard)	2/m (5.1.12)	M.H. Karigerasi, B.H. Lam, M. Avdeev and D.P. Shoemaker, Journal of Solid State Chemistry (2021) 294 121901. DOI: 10.1016/j.jssc.2020.121901
513	0.513 YRuO₃		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pn'ma' (62.448) (standard)	m'm'm (8.4.27)	K. Ji, A. Paul, E. Solana-Madruga, A.M. Arevalo-Lopez, U.V. Waghmare and J.P. Attfield, Physical Review Materials (2020) 4 091402. DOI: 10.1103/physrevmaterials.4.091402
514	0.514 CoFe₃O₅		0,0,0	Cmcm (63) (standard)	(a,b,c;0,0,0)	Cm'cm' (63.464) (standard)	m'm'm (8.4.27)	K.H. Hong, E. Solana-Madruga, M. Coduri and J.P. Attfield, Inorganic Chemistry (2018) 57 14347-14352. DOI: 10.1021/acs.inorgchem.8b02458
515	0.515 CoFe₃O₅		0,0,0	Cmcm (63) (standard)	(a,b,c;0,0,0)	P2₁'/m' (11.54) (1/2a+1/2b,-c,-1/2a+1/2b;0,0,0)	2'/m' (5.5.16)	K.H. Hong, E. Solana-Madruga, M. Coduri and J.P. Attfield, Inorganic Chemistry (2018) 57 14347-14352. DOI: 10.1021/acs.inorgchem.8b02458
516	0.516 BaMg₂Fe₁₆O₂₇		0,0,0	P6₃/mmc (194) (standard)	(a,b,c;0,0,0)	P6₃/mm'c' (194.270) (standard)	6/mm'm' (27.6.105)	A. Collomb, P. Wolfers and X. Obradors, Journal of Magnetism and Magnetic Materials (1986) 62 57-67. DOI: 10.1016/0304-8853(86)90734-1
517	0.517 BaCo₂Fe₁₆O₂₇		0,0,0	P6₃/mmc (194) (standard)	(a,b,c;0,0,0)	P6₃/mm'c' (194.270) (standard)	6/mm'm' (27.6.105)	A. Collomb, P. Wolfers and X. Obradors, Journal of Magnetism and Magnetic Materials (1986) 62 57-67. DOI: 10.1016/0304-8853(86)90734-1
518	0.518 TbCr₂Si₂		0,0,0	I4/mmm (139) (standard)	(a,b,c;0,0,0)	I4'/m'm'm (139.536) (standard)	4'/m'm'm (15.5.57)	O. Moze, M. Hofmann, J.M. Cadogan, K.H.J. Buschow and D.H. Ryan, The European Physical Journal B - Condensed Matter (2003) 36 511-518. DOI: 10.1140/epjb/e2004-00006-4
519	0.519 HoCr₂Si₂		0,0,0	I4/mmm (139) (standard)	(a,b,c;0,0,0)	I4'/m'm'm (139.536) (standard)	4'/m'm'm (15.5.57)	O. Moze, M. Hofmann, J.M. Cadogan, K.H.J. Buschow and D.H. Ryan, The European Physical Journal B - Condensed Matter (2003) 36 511-518. DOI: 10.1140/epjb/e2004-00006-4
520	0.520 TbCoO₃		0,0,0	Pbnm (62) (b,c,a;0,0,0)	(a,b,c;0,0,0)	Pnm'a (62.444) (b,c,a;0,0,0)	m'mm (8.3.26)	K. Knizek, Z. Jirak, P. Novak, C. de la Cruz, Solid State Sciences (2014) 28 26 - 30 DOI: 10.1016/j.solidstatesciences.2013.12.001
521	0.521 DyCoO₃		0,0,0	Pbnm (62) (b,c,a;0,0,0)	(a,b,c;0,0,0)	Pn'm'a' (62.449) (b,c,a;0,0,0)	m'm'm' (8.5.28)	K. Knizek, Z. Jirak, P. Novak, C. de la Cruz, Solid State Sciences (2014) 28 26 - 30 DOI: 10.1016/j.solidstatesciences.2013.12.001
522	0.522 La₂O₃FeMnSe₂		0,0,0	I4/mmm (139) (standard)	(a,b,c;0,0,0)	Im'm'm (71.536) (c,b,-a;0,0,0)	m'm'm (8.4.27)	S. Landsgesell, E. Blumenrother and K. Prokes, Journal of Physics: Condensed Matter (2013) 25 086004. DOI: 10.1088/0953-8984/25/8/086004
523	0.523 CaMn₂Sb₂		0,0,0	P-3m1 (164) (standard)	(a,b,c;0,0,0)	P-1' (2.6) (standard)	-1' (2.3.5)	C.A. Bridges, V.V. Krishnamurthy, S. Poulton, M.P. Paranthaman, B.C. Sales, C. Myers, S. Bobev, Journal of Magnetism and Magnetic Materials (2009) 321 3653 - 3657 DOI: 10.1016/j.jmmm.2009.07.015
524	0.524 MnPSe₃		0,0,0	R-3 (148) (standard)	(a,b,c;0,0,0)	P-1' (2.6) (2/3a+1/3b+1/3c,1/3a+2/3b-1/3c,-1/3a+1/3b+1/3c;0,0,0)	-1' (2.3.5)	S. Calder, !A., V., Haglund, A. I. Kolesnikov, D. Mandrus, PHYSICAL REVIEW B (2021) 103 024414 DOI: 10.1103/PhysRevB.103.024414
525	0.525 NaCeO₂		0,0,0	I4₁/amd (141) (a,b,c;0,-1/4,1/8)	(a,b,c;0,0,0)	I4₁'/a'm'd (141.556) (a,b,c;0,-1/4,1/8)	4'/m'm'm (15.5.57)	M. M. Bordelon, J. D. Bocarsly, L. Posthuma, A. Banerjee, Q. Zhang, S. D. Wilson, PHYSICAL REVIEW B (2021) 103 024430 DOI: 10.1103/PhysRevB.103.024430
526	0.526 Mn₄Ta₂O₉		0,0,0	P-3c1 (165) (standard)	(a,b,c;0,0,0)	P-3'c'1 (165.94) (standard)	-3'm' (20.4.74)	S. N. Panja, P. Manuel, S. Nair, PHYSICAL REVIEW B (2021) 103 014422 DOI: 10.1103/PhysRevB.103.014422
527	0.527 Er₂Si₂O₇		0,0,0	C2/m (12) (standard)	(a,b,c;0,0,0)	C2'/m (12.60) (standard)	2'/m (5.3.14)	G. Hester, T. N. DeLazzer, S. S. Lim, C. M. Brown, K. A. Ross, J. Phys.: Condens. Matter (2021) 33 125804 DOI: 10.1088/1361-648X/abd5f8
528	0.528 CrSb		0,0,0	P6₃/mmc (194) (standard)	(a,b,c;0,0,0)	P6₃'/m'm'c (194.268) (standard)	6'/m'mm' (27.5.104)	J. Yuan, Y.Song, X. Xing, J. Chen, Dalton Trans. (2020) 49 17605 - 17611 DOI: 10.1039/d0dt03277h
529	0.529 Co₄Nb₂O₉		0,0,0	P-3c1 (165) (standard)	(a,b,c;0,0,0)	C2/c' (15.88) (2a+b,b,c;0,0,0)	2/m' (5.4.15)	L. Ding, M. Lee, T. Hong, Z. Dun, R. Sinclair, S. Chi, H. K. Agrawal, E. S. Choi, B. C. Chakoumakos, H. Zhou, H. Cao, PHYSICAL REVIEW B (2020) 102 174443 DOI: 10.1103/PhysRevB.102.174443
530	0.530 SrCuTe₂O₆		0,0,0	P4₁32 (213) (standard)	(a,b,c;0,0,0)	P4₁32 (213.63) (standard)	432 (30.1.112)	S. Chillal, A. T. M. N. Islam, H. Luetkens, E. Canevet, Y. Skourski, D. Khalyavin, B. Lake, PHYSICAL REVIEW B (2020) 102 224424 DOI: 10.1103/PhysRevB.102.224424
531	0.531 Sr_0.7Tb_0.3CoO_2.9		0,0,0	I4/mmm (139) (standard)	(a,b,c;0,0,0)	I4'/mmm' (139.535) (standard)	4'/mm'm (15.4.56)	V. Cascos, J.L. Martinez, M.T. Fernandez-Diaz, J.A. Alonso, Journal of Alloys and Compounds (2020) 844 156121 DOI: 10.1016/j.jallcom.2020.156121
532	0.532 Sr_0.7Ho_0.3CoO_2.7		0,0,0	I4/mmm (139) (standard)	(a,b,c;0,0,0)	I4'/mmm' (139.535) (standard)	4'/mm'm (15.4.56)	V. Cascos, J.L. Martinez, M.T. Fernandez-Diaz, J.A. Alonso, Journal of Alloys and Compounds (2020) 844 156121 DOI: 10.1016/j.jallcom.2020.156121
533	0.533 Sr_0.7Er_0.3CoO_2.8		0,0,0	I4/mmm (139) (standard)	(a,b,c;0,0,0)	I4'/mmm' (139.535) (standard)	4'/mm'm (15.4.56)	V. Cascos, J.L. Martinez, M.T. Fernandez-Diaz, J.A. Alonso, Journal of Alloys and Compounds (2020) 844 156121 DOI: 10.1016/j.jallcom.2020.156121
534	0.534 Tb_0.55Sr_0.45MnO₃		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pnm'a' (62.447) (standard)	m'm'm (8.4.27)	H. Agarwal, J.A. Alonso, A. Munoz, R.J. Choudhary, O.N. Srivastava, M.A. Shaz, Journal of Alloys and Compounds (2020) 845 156355 DOI: 10.1016/j.jallcom.2020.156355
535	0.535 Tb_0.55Sr_0.45MnO₃		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pnm'a' (62.447) (standard)	m'm'm (8.4.27)	H. Agarwal, J.A. Alonso, A. Munoz, R.J. Choudhary, O.N. Srivastava, M.A. Shaz, Journal of Alloys and Compounds (2020) 845 156355 DOI: 10.1016/j.jallcom.2020.156355
536	0.536 Tb_0.55Sr_0.45MnO₃		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pnm'a' (62.447) (standard)	m'm'm (8.4.27)	H. Agarwal, J.A. Alonso, A. Munoz, R.J. Choudhary, O.N. Srivastava, M.A. Shaz, Journal of Alloys and Compounds (2020) 845 156355 DOI: 10.1016/j.jallcom.2020.156355
537	0.537 CaMn_0.7Co_1.3ReO₆		0,0,0	P4₂/n (86) (standard)	(a,b,c;0,0,0)	P4₂/n (86.67) (standard)	4/m (11.1.35)	E. Solana-Madruga, Y. Sun, A. M. Arevalo-Lopez, J. P. Attfield, Chem. Commun. (2019) 55 2605 - 2608 DOI: 10.1039/c8cc09612k
538	0.538 CaMn_1.2Ni_0.8ReO₆		0,0,0	P4₂/n (86) (standard)	(a,b,c;0,0,0)	P4₂/n (86.67) (standard)	4/m (11.1.35)	E. Solana-Madruga, Y. Sun, A. M. Arevalo-Lopez, J. P. Attfield, Chem. Commun. (2019) 55 2605 - 2608 DOI: 10.1039/c8cc09612k
539	0.539 Mn₂Fe_0.8Mo_1.2O₆		0,0,0	P2₁/n (14) (a,b,-a+c;0,0,0)	(a,b,c;0,0,0)	P2₁/c (14.75) (a,b,-a+c;0,0,0)	2/m (5.1.12)	M.R. Li, P. W. Stephens, M. Croft, Z. Deng, W. Li, C. Jin, M. Retuerto, J. P. Hodges, C. E. Frank, M. Wu, D. Walker, M. Greenblatt, Chem. Mater. (2018) 30 4508 - 4514 DOI: 10.1021/acs.chemmater.8b00250
540	0.540 Mn₂Fe_0.8Mo_1.2O₆		0,0,0	P2₁/n (14) (a,b,-a+c;0,0,0)	(a,b,c;0,0,0)	P2₁/c (14.75) (a,b,-a+c;0,0,0)	2/m (5.1.12)	M.R. Li, P. W. Stephens, M. Croft, Z. Deng, W. Li, C. Jin, M. Retuerto, J. P. Hodges, C. E. Frank, M. Wu, D. Walker, M. Greenblatt, Chem. Mater. (2018) 30 4508 - 4514 DOI: 10.1021/acs.chemmater.8b00250
541	0.541 Mn₂FeReO₆		0,0,0	P2₁/c (14) ('a,b,-a+c;0,0,0)	(a,b,c;0,0,0)	P2₁'/c' (14.79) (a,b,-a+c;0,0,0)	2'/m' (5.5.16)	A. M. Arevalo-Lopez, G. M. McNally, J. P. Attfield, Angew. Chem. Int. Ed. (2015) 54 12074 - 12077 DOI: 10.1002/anie.201506540
542	0.542 Mn₂FeReO₆		0,0,0	P2₁/c (14) (a,b,-a+c;0,0,0)	(a,b,c;0,0,0)	P-1 (2.4) (standard)	-1 (2.1.3)	A. M. Arevalo-Lopez, G. M. McNally, J. P. Attfield, Angew. Chem. Int. Ed. (2015) 54 12074 - 12077 DOI: 10.1002/anie.201506540
543	0.543 Mn₂FeReO₆		0,0,0	P2₁/c (14) (a,b,-a+c;0,0,0)	(a,b,c;0,0,0)	P-1 (2.4) (standard)	-1 (2.1.3)	A. M. Arevalo-Lopez, G. M. McNally, J. P. Attfield, Angew. Chem. Int. Ed. (2015) 54 12074 - 12077 DOI: 10.1002/anie.201506540
544	0.544 Mn₂FeReO₆		0,0,0	P2₁/c (14) (a,b,-a+c;0,0,0)	(a,b,c;0,0,0)	P-1 (2.4) (standard)	-1 (2.1.3)	A. M. Arevalo-Lopez, G. M. McNally, J. P. Attfield, Angew. Chem. Int. Ed. (2015) 54 12074 - 12077 DOI: 10.1002/anie.201506540
545	0.545 Mn₂FeReO₆		0,0,0	P2₁/c (14) (a,b,-a+c;0,0,0)	(a,b,c;0,0,0)	P-1 (2.4) (standard)	-1 (2.1.3)	A. M. Arevalo-Lopez, G. M. McNally, J. P. Attfield, Angew. Chem. Int. Ed. (2015) 54 12074 - 12077 DOI: 10.1002/anie.201506540
546	0.546 Mn₂FeReO₆		0,0,0	P2₁/c (14) (a,b,-a+c;0,0,0)	(a,b,c;0,0,0)	P2₁'/c' (14.79) (a,b,-a+c;0,0,0)	2'/m' (5.5.16)	M.-R. Li, M. Retuerto, Z. Deng, P. W. Stephens, M. Croft, Q. Huang, H. Wu, X. Deng, G. Kotliar, J. Sanchez-Benitez, J. Hadermann, D. Walker, M. Greenblatt, Angew. Chem. Int. Ed. (2015) 54 12069 - 12073 DOI: 10.1002/anie.201506456
547	0.547 Mn₂FeReO₆		0,0,0	P2₁/c (14) (a,b,-a+c;0,0,0)	(a,b,c;0,0,0)	P2₁'/c' (14.79) (a,b,-a+c;0,0,0)	2'/m' (5.5.16)	M.-R. Li, M. Retuerto, Z. Deng, P. W. Stephens, M. Croft, Q. Huang, H. Wu, X. Deng, G. Kotliar, J. Sanchez-Benitez, J. Hadermann, D. Walker, M. Greenblatt, Angew. Chem. Int. Ed. (2015) 54 12069 - 12073 DOI: 10.1002/anie.201506456
548	0.548 Mn₂FeReO₆		0,0,0	P2₁/c (14) (a,b,-a+c;0,0,0)	(a,b,c;0,0,0)	P-1 (2.4) (standard)	-1 (2.1.3)	M.-R. Li, M. Retuerto, Z. Deng, P. W. Stephens, M. Croft, Q. Huang, H. Wu, X. Deng, G. Kotliar, J. Sanchez-Benitez, J. Hadermann, D. Walker, M. Greenblatt, Angew. Chem. Int. Ed. (2015) 54 12069 - 12073 DOI: 10.1002/anie.201506456
549	0.549 Mn₂FeReO₆		0,0,0	P2₁/c (14) (a,b,-a+c;0,0,0)	(a,b,c;0,0,0)	P-1 (2.4) (standard)	-1 (2.1.3)	M.-R. Li, M. Retuerto, Z. Deng, P. W. Stephens, M. Croft, Q. Huang, H. Wu, X. Deng, G. Kotliar, J. Sanchez-Benitez, J. Hadermann, D. Walker, M. Greenblatt, Angew. Chem. Int. Ed. (2015) 54 12069 - 12073 DOI: 10.1002/anie.201506456
550	0.550 Mn₃ReO₆		1/2,1/2,0	P2₁/c (14) (a,b,-a+c;0,0,0)	(2a,2b,c;0,0,0)	P_S-1 (2.7) (c,-1/2a+1/2b,-2a+b+2c;-1/4,0,1/2)	-11' (2.2.4)	A. M. Arevalo-Lopez, F. Stegemann, J. P. Attfield, Chem. Commun. (2016) 52 5558 - 5560 DOI: 10.1039/c6cc01290f
551	0.551 Mn₃ReO₆		1/2,1/2,0	P2₁/c (14) (a,b,-a+c;0,0,0)	(2a,2b,c;0,0,0)	P_S-1 (2.7) (c,-1/2a+1/2b,-2a+b+2c;-1/4,0,1/2)	-11' (2.2.4)	A. M. Arevalo-Lopez, F. Stegemann, J. P. Attfield, Chem. Commun. (2016) 52 5558 - 5560 DOI: 10.1039/c6cc01290f
552	0.552 Pb₂MnO₄		0,0,0	P-42₁c (114) (standard)	(a,b,c;0,0,0)	P-4'2₁c' (114.278) (standard)	-4'2m' (14.4.51)	S. A. J. Kimber, J. P. Attfield, J. Mater. Chem. (2007) 17 4885 - 4888 DOI: 10.1039/B704361A
553	0.553 K₂ReI₆		0,0,0	P2₁/n (14) (a,b,-a+c;0,0,0)	(a,b,c;0,0,0)	P2₁/c (14.75) (a,b,-a+c;0,0,0)	2/m (5.1.12)	X. Gui, S. Calder, H. Cao, T. Yu, W. Xie, J. Phys. Chem. C (2019) 123 1645 - 1652 DOI: 10.1021/acs.jpcc.8b11371
554	0.554 Co₂MnSi		0,0,0	Fm-3m (225) (standard)	(a,b,c;0,0,0)	I4/mm'm' (139.537) (1/2a+1/2b,1/2a-1/2b,-c;0,0,0)	4/mm'm' (15.6.58)	S.J. Ahmed, C. Boyer, M. Niewczas, Journal of Alloys and Compounds (2019) 781 216 - 225 DOI: 10.1016/j.jallcom.2018.12.018
555	0.555 Ho_0.05Bi_0.95FeO₃		0,0,0	R3c (161) (standard)	(a,b,c;0,0,0)	R3c (161.69) (standard)	3m (19.1.68)	J. Singh, A. Agarwal, S. Sanghi, P. Prakash, A. Das, C. L. Prajapat, M. Rangi, AIP Advances (2019) 9 025110 DOI: 10.1063/1.5082386
556	0.556 Ho_0.1Bi_0.9FeO₃		0,0,0	R3c (161) (standard)	(a,b,c;0,0,0)	R3c (161.69) (standard)	3m (19.1.68)	J. Singh, A. Agarwal, S. Sanghi, P. Prakash, A. Das, C. L. Prajapat, M. Rangi, AIP Advances (2019) 9 025110 DOI: 10.1063/1.5082386
557	0.557 Ho_0.15Bi_0.85FeO₃		0,0,0	R3c (161) (standard)	(a,b,c;0,0,0)	Cc (9.37) (1/3a+2/3b+2/3c,-a,-1/3a-2/3b+1/3c;1/5,9/10,0)	m (4.1.9)	J. Singh, A. Agarwal, S. Sanghi, P. Prakash, A. Das, C. L. Prajapat, M. Rangi, AIP Advances (2019) 9 025110 DOI: 10.1063/1.5082386
558	0.558 Ho_0.2Bi_0.8FeO₃		0,0,0	R3c (161) (standard)	(a,b,c;0,0,0)	Cc (9.37) (1/3a+2/3b+2/3c,-a,-1/3a-2/3b+1/3c;1/5,9/10,0)	m (4.1.9)	J. Singh, A. Agarwal, S. Sanghi, P. Prakash, A. Das, C. L. Prajapat, M. Rangi, AIP Advances (2019) 9 025110 DOI: 10.1063/1.5082386
559	0.559 Ho_0.15Bi_0.85FeO₃		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pn'ma' (62.448) (standard)	m'm'm (8.4.27)	J. Singh, A. Agarwal, S. Sanghi, P. Prakash, A. Das, C. L. Prajapat, M. Rangi, AIP Advances (2019) 9 025110 DOI: 10.1063/1.5082386
560	0.560 Ho_0.2Bi_0.8FeO₃		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pn'ma' (62.448) (standard)	m'm'm (8.4.27)	J. Singh, A. Agarwal, S. Sanghi, P. Prakash, A. Das, C. L. Prajapat, M. Rangi, AIP Advances (2019) 9 025110 DOI: 10.1063/1.5082386
561	0.561 NdNiGe₂		0,0,0	Cmcm (63) (standard)	(a,b,c;0,0,0)	Cm'c'm (63.462) (standard)	m'm'm (8.4.27)	P. Schobinger-Papamantellos, A. Krimmel, A. Grauel, K.H.J. Buschow, Journal of Magnetism and Magnetic Materials (1993) 125 151 - 156 DOI: 10.1016/0304-8853(93)90831-L
562	0.562 Ce₂Ni₃Ge₅		1,1,1	Ibam (72) (standard)	(a,b,c;0,0,0)	P_Ibcn (60.432) (b,-a,c;0,0,0)	mmm1' (8.2.25)	L. Durivault, F. Bouree, B. Chevalier, G. Andrea, J. Etourneau, Journal of Magnetism and Magnetic Materials (2002) 246 366 - 374 DOI: 10.1016/S0304-8853(02)00107-5
563	0.563 Ce₂Ni₃Ge₅		1,1,1	Ibam (72) (standard)	(a,b,c;0,0,0)	P_Iccn (56.376) (a,b,c;1/4,1/4,1/4)	mmm1' (8.2.25)	L. Durivault, F. Bouree, B. Chevalier, G. Andrea, J. Etourneau, Journal of Magnetism and Magnetic Materials (2002) 246 366 - 374 DOI: 10.1016/S0304-8853(02)00107-5
564	0.564 U₂Rh₃Si₅		0,1,0	I2/c (15) (a+c,b,c;0,0,0)	(a,b,c;0,0,0)	P_C2/c (13.74) (a-c,b,a;1/4,1/4,1/4)	2/m1' (5.2.13)	R. Feyerherm, B. Becker, M.F. Collins, J. Mydosh, G.J. Nieuwenhuys, S. Ramakrishnan, Physica B (1997) 234-236 891 - 892 DOI: 10.1016/S0921-4526(96)01179-9
565	0.565 Ce₂Ni₃Ge₅		1,1,1	Ibam (72) (standard)	(a,b,c;0,0,0)	P_Ibcn (60.432) (b,-a,c;0,0,0)	mmm1' (8.2.25)	F. Honda, N. Metoki, T.D. Matsuda, Y. Haga, A. Thamizhavel, Y. Okuda, R. Settai, Y. Onuki, Journal of Alloys and Compounds (2008) 451 504 - 506 DOI: 10.1016/j.jallcom.2007.04.191
566	0.566 TbNiGe₂		0,0,0	Cmcm (63) (standard)	(a,b,c;0,0,0)	Cm'cm (63.459) (standard)	m'mm (8.3.26)	W. Bazelo, J. Leciejewicz, K. Maletka, A. Szytula, Journal of Magnetism and Magnetic Materials (1992) 109 305 - 308 DOI: 10.1016/0304-8853(92)91766-M
567	0.567 HoNi_0.64Ge₂		0,0,0	Cmcm (63) (standard)	(a,b,c;0,0,0)	Cm'cm (63.459) (standard)	m'mm (8.3.26)	W. Bazelo, J. Leciejewicz, K. Maletka, A. Szytula, Journal of Magnetism and Magnetic Materials (1992) 109 305 - 308 DOI: 10.1016/0304-8853(92)91766-M
568	0.568 TbNi_0.4Ge₂		0,0,0	Cmcm (63) (standard)	(a,b,c;0,0,0)	Cm'cm (63.459) (standard)	m'mm (8.3.26)	P. Schobinger-Papamantellos, K.H.J. Buschow, Journal of AUoys and Compounds (1992) 187 73 - 80 DOI: 10.1016/0925-8388(92)90522-B
569	0.569 TbCu_0.4Ge₂		0,0,0	Cmcm (63) (standard)	(a,b,c;0,0,0)	Cm'cm (63.459) (standard)	m'mm (8.3.26)	P. Schobinger-Papamantellos, K.H.J. Buschow, Journal of AUoys and Compounds (1992) 187 73 - 80 DOI: 10.1016/0925-8388(92)90522-B
570	0.570 Li_0.5FeCr_1.5O₄		0,0,0	Fd-3m (227) (standard)	(a,b,c;0,0,0)	I4₁/am'd' (141.557) (1/2a+1/2b,-1/2a+1/2b,c;1/4,0,1/4)	4/mm'm' (15.6.58)	M. Ghanathe, A. Kumar, S. M. Yusuf, J. Appl. Phys. (2019) 125 093903 DOI: 10.1063/1.5064425
571	0.571 CoSO₄		0,0,0	Pbnm (62) (b,c,a;0,0,0)	(a,b,c;0,0,0)	Pnma (62.441) (b,c,a;0,0,0)	mmm (8.1.24)	E.F. Bertaut, J. Coing-Boyat, A. Delapalme, Physics Letters (1963) 3 178 - 180 DOI: 10.1016/0031-9163(63)90406-2
572	0.572 Na₂NiCrF₇		0,0,0	Imma (74) (standard)	(a,b,c;0,0,0)	Im'm'a (74.558) (standard)	m'm'm (8.4.27)	Y. Laligant, G. Ferey, G. Heger, J. Pannetier, Z. anorg. allg. Chem. (1987) 553 163 - 171 DOI: 10.1002/zaac.19875531019
573	0.573 Na₂NiCrF₇		0,0,0	Imma (74) (standard)	(a,b,c;0,0,0)	Im'm'a (74.558) (standard)	m'm'm (8.4.27)	Y. Laligant, G. Ferey, G. Heger, J. Pannetier, Z. anorg. allg. Chem. (1987) 553 163 - 171 DOI: 10.1002/zaac.19875531019
574	0.574 MnFeF₅(H₂O)₂		0,0,0	Imm2 (44) (standard)	(a,b,c;0,0,0)	C2' (5.15) (a+b,c,a;0,0,0)	2' (3.3.8)	Y. Laligant, J. Pannetier, G. Ferey, JOURNAL OF SOLID STATE CHEMISTRY (1987) 66 242 - 250 DOI: 10.1016/0022-4596(87)90193-9
575	0.575 ZnFeF₅(H₂O)₂		0,0,0	Imm2 (44) (standard)	(a,b,c;0,0,0)	Imm2 (44.229) (standard)	mm2 (7.1.20)	Y. Laligant, J. Pannetier, G. Ferey, JOURNAL OF SOLID STATE CHEMISTRY (1987) 66 242 - 250 DOI: 10.1016/0022-4596(87)90193-9
576	0.576 Cr₂F₅		0,0,0	C2/c (15) (standard)	(a,b,c;0,0,0)	C2/c (15.85) (standard)	2/m (5.1.12)	P. Lacorre, G. Ferey, J. Pannetier, JOURNAL OF SOLID STATE CHEMISTRY (1992) 96 227 - 236 DOI: 10.1016/S0022-4596(05)80315-9
577	0.577 BaMnFeF₇		0,0,0	P2₁/c (14) (standard)	(a,b,c;0,0,0)	P2₁'/c' (14.79) (standard)	2'/m' (5.5.16)	P. Lacorre, J. Pannetier, J. Pebler, S. Nagel, D. Babel, A.de Kozak, M. Samouel, G. Ferey, JOURNAL OF SOLID STATE CHEMISTRY (1992) 101 296 - 308 DOI: 10.1016/0022-4596(92)90185-X
578	0.578 NaBaFe₂F₉		0,0,0	P2₁/c (14) (a,b,-a+c;0,0,0)	(a,b,c;0,0,0)	P2₁/c (14.75) (a,b,-a+c;0,0,0)	2/m (5.1.12)	A. de Kozak, M. Samouel, M. Leblanc, G. Ferey, J.Pannetier, Solid State Communications (1985) 55 887 - 890 DOI: 10.1016/0038-1098(85)90200-5
579	0.579 Na₂NiFeF₇		0,0,0	Imma (74) (standard)	(a,b,c;0,0,0)	Imm'a' (74.559) (standard)	m'm'm (8.4.27)	Y. Laligant, Y. Calage, G. Heger, J. Pannetier, G. Ferey, JOURNAL OF SOLID STATE CHEMISTRY (1989) 78 66 - 77 DOI: 10.1016/0022-4596(89)90128-X
580	0.580 Na₂NiFeF₇		0,0,0	Imma (74) (standard)	(a,b,c;0,0,0)	Imm'a' (74.559) (standard)	m'm'm (8.4.27)	Y. Laligant, Y. Calage, G. Heger, J. Pannetier, G. Ferey, JOURNAL OF SOLID STATE CHEMISTRY (1989) 78 66 - 77 DOI: 10.1016/0022-4596(89)90128-X
581	0.581 FeF₃		0,0,0	R-3c (167) (standard)	(a,b,c;0,0,0)	C2'/c' (15.89) (1/3a+2/3b+2/3c,-a,-1/3a-2/3b+1/3c;0,1/2,0)	2'/m' (5.5.16)	M. Leblanc, R. De Pape, G. Ferey, J. Pannetier, Solid State Communications (1986) 58 171 - 176 DOI: 10.1016/0038-1098(86)90836-7
582	0.582 Fe₃F₈(H₂O)₂		0,0,0	C2/m (12) (standard)	(a,b,c;0,0,0)	C2'/m' (12.62) (standard)	2'/m' (5.5.16)	M. Leblanc, G. Ferey, P. Lacorre, J. Pannetier, Journal of Magnetism and Magnetic Materials (1991) 92 359 - 365 DOI: 10.1016/0304-8853(91)90849-6
583	0.583 Fe₂F₅(H₂O)₂		0,0,0	Imma (74) (standard)	(a,b,c;0,0,0)	Imm'a' (74.559) (-b,a,c;1/4,1/4,1/4)	m'm'm (8.4.27)	Y Laligant, M Leblanc, J Pannetier, G Ferey, J. Phys. C: Solid State Phys. (1986) 19 1081 - 1095 DOI: 10.1088/0022-3719/19/8/007
584	0.584 Fe₂F₅(H₂O)₂		0,0,0	Imma (74) (standard)	(a,b,c;0,0,0)	C2'/c' (15.89) (a+b,c,-b;0,0,0)	2'/m' (5.5.16)	Y Laligant, M Leblanc, J Pannetier, G Ferey, J. Phys. C: Solid State Phys. (1986) 19 1081 - 1095 DOI: 10.1088/0022-3719/19/8/007
585	0.585 YbCl₃		0,0,0	C2/m (12) (standard)	(a,b,c;0,0,0)	C2'/m (12.60) (standard)	2'/m (5.3.14)	Y. Hao, H. Wo1†, Y. Gu, X. Zhang, Y. Gu, S. Zheng, Y. Zhao, G. Xu, J. W. Lynn, K. Nakajima, N. Murai, W. Wang, J. Zhao, Science China Physics, Mechanics & Astronomy (2021) 64 237411 DOI: 10.1007/s11433-020-1626-3
586	0.586 YCrO₃		0,0,0	Pbnm (62) (b,c,a;0,0,0)	(a,b,c;0,0,0)	Pn'ma' (62.448) (b,c,a;0,0,0)	m'm'm (8.4.27)	E. F. Bertaut, G. Bassi, G. Buisson, P. Burlet, J. Chappert, A. Delapalme, J. Mareschal, G. Roult, R. Aleonard, R. Pauthenet, J. P. Rebouillat, JOURNAL OF APPLIED PHYSICS (1966) 37 1038 - 1039 DOI: 10.1063/1.1708325
587	0.587 TmCrO₃		0,0,0	Pbnm (62) (b,c,a;0,0,0)	(a,b,c;0,0,0)	Pn'ma' (62.448) (b,c,a;0,0,0)	m'm'm (8.4.27)	E. F. Bertaut, G. Bassi, G. Buisson, P. Burlet, J. Chappert, A. Delapalme, J. Mareschal, G. Roult, R. Aleonard, R. Pauthenet, J. P. Rebouillat, JOURNAL OF APPLIED PHYSICS (1966) 37 1038 - 1039 DOI: 10.1063/1.1708325
588	0.588 PrCrO₃		0,0,0	Pbnm (62) (b,c,a;0,0,0)	(a,b,c;0,0,0)	Pn'ma' (62.448) (b,c,a;0,0,0)	m'm'm (8.4.27)	E. F. Bertaut, G. Bassi, G. Buisson, P. Burlet, J. Chappert, A. Delapalme, J. Mareschal, G. Roult, R. Aleonard, R. Pauthenet, J. P. Rebouillat, JOURNAL OF APPLIED PHYSICS (1966) 37 1038 - 1039 DOI: 10.1063/1.1708325
589	0.589 NdCrO₃		0,0,0	Pbnm (62) (b,c,a;0,0,0)	(a,b,c;0,0,0)	P2₁/m (11.50) (a,c,-b;0,0,0)	2/m (5.1.12)	E. F. Bertaut, J. Mareschal, Solid State Communications (1967) 5 93 - 97 DOI: 10.1016/0038-1098(67)90001-4
590	0.590 ErCrO₃		0,0,0	Pbnm (62) (b,c,a;0,0,0)	(a,b,c;0,0,0)	P2₁/m (11.50) (a,c,-b;0,0,0)	2/m (5.1.12)	E. F. Bertaut, J. Mareschal, Solid State Communications (1967) 5 93 - 97 DOI: 10.1016/0038-1098(67)90001-4
591	0.591 ErCrO₃		0,0,0	Pbnm (62) (b,c,a;0,0,0)	(a,b,c;0,0,0)	Pn'ma' (62.448) (b,c,a;0,0,0)	m'm'm (8.4.27)	E. F. Bertaut, G. Bassi, G. Buisson, P. Burlet, J. Chappert, A. Delapalme, J. Mareschal, G. Roult, R. Aleonard, R. Pauthenet, J. P. Rebouillat, JOURNAL OF APPLIED PHYSICS (1966) 37 1038 - 1039 DOI: 10.1063/1.1708325
592	0.592 DyCrO₃		0,0,0	Pbnm (62) (b,c,a;0,0,0)	(a,b,c;0,0,0)	Pn'm'a (62.446) (b,c,a;0,0,0)	m'm'm (8.4.27)	B. Van Laar, J.B.A.A. Elemans, J. Physique (1971) 32 301 - 304 DOI: 10.1051/jphys:01971003204030100
593	0.593 UPSe		0,0,0	P4/nmm (129) (standard)	(a,b,c;0,0,0)	P4/nm'm' (129.417) (standard)	4/mm'm' (15.6.58)	A. Zygmunt, S. Ligenza, H. Ptasiewicz, J. Leciejewicz, phys. stat. sol. (a) (1974) 25 K77 - K80 DOI: 10.1002/pssa.2210250155
594	0.594 UAsS		0,0,0	P4/nmm (129) (standard)	(a,b,c;0,0,0)	P4/nm'm' (129.417) (standard)	4/mm'm' (15.6.58)	A. Zygmunt, S. Ligenza, H. Ptasiewicz, J. Leciejewicz, phys. stat. sol. (a) (1974) 25 K77 - K80 DOI: 10.1002/pssa.2210250155
595	0.595 UPTe		0,0,0	I4/mmm (139) (standard)	(a,b,c;0,0,0)	I4/mm'm' (139.537) (standard)	4/mm'm' (15.6.58)	A. Zygmunt, A. Murasik, S. Ligenza, J. Leciejewicz, phys. stat. sol. (a) (1974) 22 75 - 79 DOI: 10.1002/pssa.2210220107
596	0.596 UAsTe		0,0,0	I4/mmm (139) (standard)	(a,b,c;0,0,0)	I4/mm'm' (139.537) (standard)	4/mm'm' (15.6.58)	A. Zygmunt, A. Murasik, S. Ligenza, J. Leciejewicz, phys. stat. sol. (a) (1974) 22 75 - 79 DOI: 10.1002/pssa.2210220107
597	0.597 MnBi₈Te₁₃		0,0,0	R-3m (166) (standard)	(a,b,c;0,0,0)	R-3m' (166.101) (standard)	-3m' (20.5.75)	L. Ding, C. Hu, E. Feng, C. Jiang, I. A Kibalin, A. Gukasov, M. Chi, N. Ni, H. Cao, J. Phys. D: Appl. Phys. (2021) 54 174003 DOI: 10.1088/1361-6463/abe0dd
598	0.598 AlCr₂		0,0,1	I4/mmm (139) (standard)	(a,b,c;0,0,0)	P_A2₁/c (14.83) (-c,a,-b+c;0,0,0)	2/m1' (5.2.13)	M. Atoji, J. Chem. Phys. (1965) 43 222 - 225 DOI: 10.1063/1.1696459
599	0.599 CaMnSi		0,0,0	P4/nmm (129) (standard)	(a,b,c;0,0,0)	P4'/n'm'm (129.416) (standard)	4'/m'm'm (15.5.57)	R. Welter, G. Venturini, E. Ressouche, B. Malamana, Solid State Communications (1996) 97 503 - 507 DOI: 10.1016/0038-1098(95)00693-1
600	0.600 CaMnSi		0,0,0	P4/nmm (129) (standard)	(a,b,c;0,0,0)	P4'/n'm'm (129.416) (standard)	4'/m'm'm (15.5.57)	R. Welter, G. Venturini, E. Ressouche, B. Malamana, Solid State Communications (1996) 97 503 - 507 DOI: 10.1016/0038-1098(95)00693-1
601	0.601 CaMnGe		0,0,0	P4/nmm (129) (standard)	(a,b,c;0,0,0)	P2₁/m' (11.53) (standard)	2/m' (5.4.15)	R. Welter, G. Venturini, E. Ressouche, B. Malamana, Solid State Communications (1996) 97 503 - 507 DOI: 10.1016/0038-1098(95)00693-1
602	0.602 CaMnGe		0,0,0	P4/nmm (129) (standard)	(a,b,c;0,0,0)	P2₁/m' (11.53) (standard)	2/m' (5.4.15)	R. Welter, G. Venturini, E. Ressouche, B. Malamana, Solid State Communications (1996) 97 503 - 507 DOI: 10.1016/0038-1098(95)00693-1
603	0.603 CaMn₂Ge₂		0,0,0	I4/mmm (139) (standard)	(a,b,c;0,0,0)	I4'/m'm'm (139.536) (standard)	4'/m'm'm (15.5.57)	B. Malaman, G. Venturini, R. Welter, E. Ressouche, Journal of Alloys and Compounds (1994) 210 209 - 212 DOI: 10.1016/0925-8388(94)90140-6
604	0.604 CaMn₂Ge₂		0,0,0	I4/mmm (139) (standard)	(a,b,c;0,0,0)	I4'/m'm'm (139.536) (standard)	4'/m'm'm (15.5.57)	B. Malaman, G. Venturini, R. Welter, E. Ressouche, Journal of Alloys and Compounds (1994) 210 209 - 212 DOI: 10.1016/0925-8388(94)90140-6
605	0.605 BaMn₂Ge₂		0,0,0	I4/mmm (139) (standard)	(a,b,c;0,0,0)	I4'/m'm'm (139.536) (standard)	4'/m'm'm (15.5.57)	B. Malaman, G. Venturini, R. Welter, E. Ressouche, Journal of Alloys and Compounds (1994) 210 209 - 212 DOI: 10.1016/0925-8388(94)90140-6
606	0.606 BaMn₂Ge₂		0,0,0	I4/mmm (139) (standard)	(a,b,c;0,0,0)	I4'/m'm'm (139.536) (standard)	4'/m'm'm (15.5.57)	B. Malaman, G. Venturini, R. Welter, E. Ressouche, Journal of Alloys and Compounds (1994) 210 209 - 212 DOI: 10.1016/0925-8388(94)90140-6
607	0.607 RuO₂		0,0,0	P4₂/mnm (136) (standard)	(a,b,c;0,0,0)	P4₂'/mnm' (136.499) (standard)	4'/mm'm (15.4.56)	T. Berlijn, P. C. Snijders, O. Delaire, H.-D. Zhou, T. A. Maier, H.-B. Cao, S.-X. Chi, M. Matsuda, Y. Wang, M. R. Koehler, P. R. C. Kent, H. H. Weitering, PHYSICAL REVIEW LETTERS (2017) 118 077201 DOI: 10.1103/PhysRevLett.118.077201
608	0.608 PrMnO₃		0,0,0	Pbnm (62) (b,c,a;0,0,0)	(a,b,c;0,0,0)	Pn'ma' (62.448) (b,c,a;0,0,0)	m'm'm (8.4.27)	S. Quezel-Ambrunaz, Bull. Soc. Franc. Miner. Crist. (1968) 91 339 - 343 DOI: 10.3406/bulmi.1968.6239
609	0.609 NdMnO₃		0,0,0	Pbnm (62) (b,c,a;0,0,0)	(a,b,c;0,0,0)	P2₁/m (11.50) (a,c,-b;0,0,0)	2/m (5.1.12)	S. Quezel-Ambrunaz, Bull. Soc. Franc. Miner. Crist. (1968) 91 339 - 343 DOI: 10.3406/bulmi.1968.6239
610	0.610 Pr_0.95K_0.05MnO₃		0,0,0	Pbnm (62) (b,c,a;0,0,0)	(a,b,c;0,0,0)	Pn'ma' (62.448) (b,c,a;0,0,0)	m'm'm (8.4.27)	Z., Jirak!, J. Hejtmanek, K. Knizek, JOURNAL OF SOLID STATE CHEMISTRY (1997) 132 98 - 106 DOI: 10.1006@jssc.1997.7414
611	0.611 BaMnSb₂		0,0,0	I4/mmm (139) (standard)	(a,b,c;0,0,0)	I4'/m'm'm (139.536) (standard)	4'/m'm'm (15.5.57)	J. Liu, J. Hu, H. Cao, Y. Zhu, A. Chuang, D. Graf, D. J. Adams, S. M. A. Radmanesh, L. Spinu, I. Chiorescu, Z. Mao, Sci. Rep. (2016) 6 30525 DOI: 10.1038/srep30525
612	0.612 Cu₂OSO₄		0,0,0	C2/m (12) (standard)	(a,b,c;0,0,0)	C2/m (12.58) (standard)	2/m (5.1.12)	V. Y. Favre, G. S. Tucker, C. Ritter, R. Sibille, P. Manuel, M. D. Frontzek, M. Kriener, L. Yang, H. Berger, A. Magrez, N. P. M. Casati, I. Zivkovic, H. M. Ronnow, PHYSICAL REVIEW B (2020) 102 094422 DOI: 10.1103/PhysRevB.102.094422
613	0.613 FeCr₂S₄		0,0,0	Fd-3m (227) (standard)	(a,b,c;0,0,0)	I4₁/am'd' (141.557) (1/2a-1/2b,1/2a+1/2b,c;-1/8,-1/8,1/8)	4/mm'm' (15.6.58)	S. Jin Kim, W. Chul Kim, C. Sung Kim, J. Appl. Phys. (2002) 91 7935 - 7937 DOI: 10.1063/1.1451884
614	0.614 FeCr₂S₄		0,0,0	Fd-3m (227) (standard)	(a,b,c;0,0,0)	I4₁/am'd' (141.557) (1/2a-1/2b,1/2a+1/2b,c;-1/8,-1/8,1/8)	4/mm'm' (15.6.58)	J. Bertinshaw, C. Ulrich, A. Gunther, F. Schrettle, M. Wohlauer, S. Krohns, M. Reehuis, A. J. Studer, M. Avdeev, D. V. Quach, J. R. Groza, V. Tsurkan, A. Loidl, J. Deisenhofer, SCIENTIFIC REPORTS (2002) 4 6079 DOI: 10.1038/srep06079
615	0.615 FeCr₂S₄		0,0,0	Fd-3m (227) (standard)	(a,b,c;0,0,0)	I4₁/am'd' (141.557) (1/2a-1/2b,1/2a+1/2b,c;-1/8,-1/8,1/8)	4/mm'm' (15.6.58)	J. Bertinshaw, C. Ulrich, A. Gunther, F. Schrettle, M. Wohlauer, S. Krohns, M. Reehuis, A. J. Studer, M. Avdeev, D. V. Quach, J. R. Groza, V. Tsurkan, A. Loidl, J. Deisenhofer, SCIENTIFIC REPORTS (2002) 4 6079 DOI: 10.1038/srep06079
616	0.616 HoB₂		0,0,0	P6/mmm (191) (standard)	(a,b,c;0,0,0)	C2'/m' (12.62) (-b,2a+b,c;0,0,0)	2'/m' (5.5.16)	N. Terada, K. Terashima, P. B. de Castro, C. V. Colin, H. Mamiya, T. D. Yamamoto, H. Takeya, O. Sakai, Y. Takano, H. Kitazawa, PHYSICAL REVIEW B (2020) 102 094435 DOI: 10.1103/PhysRevB.102.094435
617	0.617 KMnSb		0,0,0	P4/nmm (129) (a,b,c;1/4,-1/4,0)	(a,b,c;0,0,0)	P4'/n'm'm (129.416) (a,b,c;1/4,-1/4,0)	4'/m'm'm (15.5.57)	F. Schucht, A. Dascoulidou, R. Muller, W. Jung, H.‐U. Schuster, W. Bronger, P. Muller, Z. anorg. allg. Chem. (1999) 625 31 - 36 DOI: 10.1002/(SICI)1521-3749(199901)625:1<31::AID-ZAAC31>3.0.CO;2-S
618	0.618 KMnBi		0,0,0	P4/nmm (129) (a,b,c;1/4,-1/4,0)	(a,b,c;0,0,0)	P4'/n'm'm (129.416) (a,b,c;1/4,-1/4,0)	4'/m'm'm (15.5.57)	F. Schucht, A. Dascoulidou, R. Muller, W. Jung, H.‐U. Schuster, W. Bronger, P. Muller, Z. anorg. allg. Chem. (1999) 625 31 - 36 DOI: 10.1002/(SICI)1521-3749(199901)625:1<31::AID-ZAAC31>3.0.CO;2-S
619	0.619 LaMnAsO		0,0,0	P4/nmm (129) (standard)	(a,b,c;1/4,-1/4,1/2)	P4'/n'm'm (129.416) (a,b,c;1/4,-1/4,0)	4'/m'm'm (15.5.57)	N. Emery, E. J. Wildman, J. M. S. Skakle, A. C. Mclaughlin, R. I. Smith, A. N. Fitch, PHYSICAL REVIEW B (2011) 83 144429 DOI: 10.1103/PhysRevB.83.144429
620	0.620 NdMnAsO		0,0,0	P4/nmm (129) (standard)	(a,b,c;1/4,-1/4,1/2)	P4'/n'm'm (129.416) (a,b,c;1/4,-1/4,0)	4'/m'm'm (15.5.57)	N. Emery, E. J. Wildman, J. M. S. Skakle, A. C. Mclaughlin, R. I. Smith, A. N. Fitch, PHYSICAL REVIEW B (2011) 83 144429 DOI: 10.1103/PhysRevB.83.144429
621	0.621 NdMnAsO		0,0,0	P4/nmm (129) (standard)	(a,b,c;1/4,-1/4,1/2)	Pm'mn (59.407) (a,b,c;1/4,1/4,0)	m'mm (8.3.26)	N. Emery, E. J. Wildman, J. M. S. Skakle, A. C. Mclaughlin, R. I. Smith, A. N. Fitch, PHYSICAL REVIEW B (2011) 83 144429 DOI: 10.1103/PhysRevB.83.144429
622	0.622 NdMnAsO		0,0,0	P4/nmm (129) (standard)	(a,b,c;0,0,0)	Pm'mn (59.407) (b,-a,c;1/2,0,0)	m'mm (8.3.26)	A. Marcinkova, T. C. Hansen, C. Curfs, S. Margadonna, J. W. G. Bos, PHYSICAL REVIEW B (2010) 82 174438 DOI: 10.1103/PhysRevB.82.174438
623	0.623 NdMnAsO		0,0,0	P4/nmm (129) (standard)	(a,b,c;0,0,0)	P4'/n'm'm (129.416) (standard)	4'/m'm'm (15.5.57)	A. Marcinkova, T. C. Hansen, C. Curfs, S. Margadonna, J. W. G. Bos, PHYSICAL REVIEW B (2010) 82 174438 DOI: 10.1103/PhysRevB.82.174438
624	0.624 LaMnAsO		0,0,0	P4/nmm (129) (standard)	(a,b,c;1/4,-1/4,1/2)	P4'/n'm'm (129.416) (a,b,c;1/4,-1/4,0)	4'/m'm'm (15.5.57)	N. Emery, E. J. Wildman, J. M. S. Skakle, A. C. Mclaughlin, R. I. Smith, A. N. Fitch, PHYSICAL REVIEW B (2011) 83 144429 DOI: 10.1103/PhysRevB.83.144429
625	0.625 U₂Pd₂In		0,0,0	P4/mbm (127) (standard)	(a,b,c;0,0,0)	P4'/m'bm' (127.394) (standard)	4'/m'm'm (15.5.57)	A. Martin-Martin, L. C. J. Pereira, G. H. Lander, J. Rebizant, F. Wastin, J. C. Spirlet, P. Dervenagas, P. J. Brown, PHYSICAL REVIEW B (1999) 59 11818 - 11825 DOI: 10.1103/PhysRevB.59.11818
626	0.626 NaMnP		0,0,0	P4/nmm (129) (a,b,c;1/4,-1/4,0)	(a,b,c;0,0,0)	P4'/n'm'm (129.416) (a,b,c;1/4,-1/4,0)	4'/m'm'm (15.5.57)	W. Bronger, P. Muller, R., Hoppner, H.U. Schuster, Z. anorg. allg. Chem. (1986) 539 175 - 182 DOI: 10.1002/zaac.19865390816
627	0.627 NaMnP		0,0,0	P4/nmm (129) (a,b,c;1/4,-1/4,0)	(a,b,c;0,0,0)	P4'/n'm'm (129.416) (a,b,c;1/4,-1/4,0)	4'/m'm'm (15.5.57)	W. Bronger, P. Muller, R., Hoppner, H.U. Schuster, Z. anorg. allg. Chem. (1986) 539 175 - 182 DOI: 10.1002/zaac.19865390816
628	0.628 NaMnP		0,0,0	P4/nmm (129) (a,b,c;1/4,-1/4,0)	(a,b,c;0,0,0)	P4'/n'm'm (129.416) (a,b,c;1/4,-1/4,0)	4'/m'm'm (15.5.57)	W. Bronger, P. Muller, R., Hoppner, H.U. Schuster, Z. anorg. allg. Chem. (1986) 539 175 - 182 DOI: 10.1002/zaac.19865390816
629	0.629 NaMnAs		0,0,0	P4/nmm (129) (a,b,c;1/4,-1/4,0)	(a,b,c;0,0,0)	P4'/n'm'm (129.416) (a,b,c;1/4,-1/4,0)	4'/m'm'm (15.5.57)	W. Bronger, P. Muller, R., Hoppner, H.U. Schuster, Z. anorg. allg. Chem. (1986) 539 175 - 182 DOI: 10.1002/zaac.19865390816
630	0.630 NaMnAs		0,0,0	P4/nmm (129) (a,b,c;1/4,-1/4,0)	(a,b,c;0,0,0)	P4'/n'm'm (129.416) (a,b,c;1/4,-1/4,0)	4'/m'm'm (15.5.57)	W. Bronger, P. Muller, R., Hoppner, H.U. Schuster, Z. anorg. allg. Chem. (1986) 539 175 - 182 DOI: 10.1002/zaac.19865390816
631	0.631 NaMnSb		0,0,0	P4/nmm (129) (a,b,c;1/4,-1/4,0)	(a,b,c;0,0,0)	P4'/n'm'm (129.416) (a,b,c;1/4,-1/4,0)	4'/m'm'm (15.5.57)	W. Bronger, P. Muller, R., Hoppner, H.U. Schuster, Z. anorg. allg. Chem. (1986) 539 175 - 182 DOI: 10.1002/zaac.19865390816
632	0.632 NaMnSb		0,0,0	P4/nmm (129) (a,b,c;1/4,-1/4,0)	(a,b,c;0,0,0)	P4'/n'm'm (129.416) (a,b,c;1/4,-1/4,0)	4'/m'm'm (15.5.57)	W. Bronger, P. Muller, R., Hoppner, H.U. Schuster, Z. anorg. allg. Chem. (1986) 539 175 - 182 DOI: 10.1002/zaac.19865390816
633	0.633 KFeS₂		0,0,0	C2/c (15) (standard)	(a,b,c;0,0,0)	C2'/c (15.87) (standard)	2'/m (5.3.14)	W. Bronger, A. Kyas, P. Muller, JOURNAL OF SOLID STATE CHEMISTRY (1987) 70 262 - 270 DOI: 10.1016/0022-4596(87)90065-X
634	0.634 NaMnBi		0,0,0	P4/nmm (129) (a,b,c;1/4,-1/4,0)	(a,b,c;0,0,0)	P4'/n'm'm (129.416) (a,b,c;1/4,-1/4,0)	4'/m'm'm (15.5.57)	W. Bronger, P. Muller, R., Hoppner, H.U. Schuster, Z. anorg. allg. Chem. (1986) 539 175 - 182 DOI: 10.1002/zaac.19865390816
635	0.635 NaMnBi		0,0,0	P4/nmm (129) (a,b,c;1/4,-1/4,0)	(a,b,c;0,0,0)	P4'/n'm'm (129.416) (a,b,c;1/4,-1/4,0)	4'/m'm'm (15.5.57)	W. Bronger, P. Muller, R., Hoppner, H.U. Schuster, Z. anorg. allg. Chem. (1986) 539 175 - 182 DOI: 10.1002/zaac.19865390816
636	0.636 RbFeS₂		0,0,0	C2/c (15) (standard)	(a,b,c;0,0,0)	C2'/c (15.87) (standard)	2'/m (5.3.14)	W. Bronger, A. Kyas, P. Muller, JOURNAL OF SOLID STATE CHEMISTRY (1987) 70 262 - 270 DOI: 10.1016/0022-4596(87)90065-X
637	0.637 KFeSe₂		0,0,0	C2/c (15) (standard)	(a,b,c;0,0,0)	C2/c' (15.88) (standard)	2/m' (5.4.15)	W. Bronger, A. Kyas, P. Muller, JOURNAL OF SOLID STATE CHEMISTRY (1987) 70 262 - 270 DOI: 10.1016/0022-4596(87)90065-X
638	0.638 RbFeSe₂		0,0,0	C2/c (15) (standard)	(a,b,c;0,0,0)	C2/c' (15.88) (standard)	2/m' (5.4.15)	W. Bronger, A. Kyas, P. Muller, JOURNAL OF SOLID STATE CHEMISTRY (1987) 70 262 - 270 DOI: 10.1016/0022-4596(87)90065-X
639	0.639 Mn₂Au		0,0,0	I4/mmm (139) (standard)	(a,b,c;0,0,0)	Im'mm (71.535) (standard)	m'mm (8.3.26)	V.M.T.S. Barthem, C.V. Colin, H. Mayaffre, M.-H. Julien, D. Givord, NATURE COMMUNICATIONS (2013) 4 2892 DOI: 10.1038/ncomms3892
640	0.640 Mn₂Au		0,0,0	I4/mmm (139) (standard)	(a,b,c;0,0,0)	Im'mm (71.535) (standard)	m'mm (8.3.26)	V.M.T.S. Barthem, C.V. Colin, H. Mayaffre, M.-H. Julien, D. Givord, NATURE COMMUNICATIONS (2013) 4 2892 DOI: 10.1038/ncomms3892
641	0.641 Mn₃Ga		0,0,0	I4/mmm (139) (standard)	(a,b,c;0,0,0)	C2'/m' (12.62) (a-c,b,c;0,0,0)	2'/m' (5.5.16)	E. Fonda, E. Otero, F. Choueikani, P. Ohresser, F. Porcher, G. Andre, PHYSICAL REVIEW B (2013) 87 184429 DOI: 10.1103/PhysRevB.87.184429
642	0.642 LaMnO₃		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pn'ma' (62.448) (standard)	m'm'm (8.4.27)	J. B. A. A. Elemans, B. Van Laar, K. R. Van Der Veen, B. O. Loopstra, JOURNAL OF SOLID STATE CHEMISTRY (1971) 3 238 - 242 DOI: 10.1016/0022-4596(71)90034-X
643	0.643 La_0.95Ca_0.05MnO₃		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pn'ma' (62.448) (standard)	m'm'm (8.4.27)	J. B. A. A. Elemans, B. Van Laar, K. R. Van Der Veen, B. O. Loopstra, JOURNAL OF SOLID STATE CHEMISTRY (1971) 3 238 - 242 DOI: 10.1016/0022-4596(71)90034-X
644	0.644 La_0.95Ba_0.05MnO₃		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pn'ma' (62.448) (standard)	m'm'm (8.4.27)	J. B. A. A. Elemans, B. Van Laar, K. R. Van Der Veen, B. O. Loopstra, JOURNAL OF SOLID STATE CHEMISTRY (1971) 3 238 - 242 DOI: 10.1016/0022-4596(71)90034-X
645	0.645 La_0.95Ba_0.05Mn_0.95Ti_0.05O₃		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pn'ma' (62.448) (standard)	m'm'm (8.4.27)	J. B. A. A. Elemans, B. Van Laar, K. R. Van Der Veen, B. O. Loopstra, JOURNAL OF SOLID STATE CHEMISTRY (1971) 3 238 - 242 DOI: 10.1016/0022-4596(71)90034-X
646	0.646 La_0.90Ba_0.10Mn_0.90Ti_0.10O₃		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pn'ma' (62.448) (standard)	m'm'm (8.4.27)	J. B. A. A. Elemans, B. Van Laar, K. R. Van Der Veen, B. O. Loopstra, JOURNAL OF SOLID STATE CHEMISTRY (1971) 3 238 - 242 DOI: 10.1016/0022-4596(71)90034-X
647	0.647 La_0.875Ba_0.125Mn_0.875Ti_0.125O₃		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pn'ma' (62.448) (standard)	m'm'm (8.4.27)	J. B. A. A. Elemans, B. Van Laar, K. R. Van Der Veen, B. O. Loopstra, JOURNAL OF SOLID STATE CHEMISTRY (1971) 3 238 - 242 DOI: 10.1016/0022-4596(71)90034-X
648	0.648 (Ho_0.8Mn_0.2)MnO₃		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pnm'a' (62.447) (standard)	m'm'm (8.4.27)	A. Donni, V. Y. Pomjakushin, L. Zhanga, K. Yamaura, A. A. Belik, Journal of Alloys and Compounds (2021) 857 158230 DOI: 10.1016/j.jallcom.2020.158230
649	0.649 (Ho_0.8Mn_0.2)MnO₃		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pnm'a' (62.447) (standard)	m'm'm (8.4.27)	A. Donni, V. Y. Pomjakushin, L. Zhanga, K. Yamaura, A. A. Belik, Journal of Alloys and Compounds (2021) 857 158230 DOI: 10.1016/j.jallcom.2020.158230
650	0.650 Er₂Si₂O₇		0,0,0	C2/m (12) (standard)	(a,b,c;0,0,0)	C2'/m (12.60) (standard)	2'/m (5.3.14)	G. Hester, T. N. DeLazzer, S. S. Lim, C. M. Brown, K. A. Ross, J. Phys.: Condens. Matter (2021) 33 125804 DOI: 10.1088/1361-648X/abd5f8
651	0.651 Er₃Cu₄Sn₄		0,0,1/2	C2/m (12) (standard)	(a,b,2c;0,0,0)	C_c2/m (12.63) (a,b,c;0,0,1/4)	2/m1' (5.2.13)	S. Baran, A. Deptuch, B. Penc, A. Hoser, A. Szytula, Acta Cryst. B (2021) 77 219 - 224 DOI: 10.1107/S205252062100127X
652	0.652 HoMnO₃		0,0,0	P6₃cm (185) (standard)	(a,b,c;0,0,0)	P6₃'cm' (185.200) (standard)	6'mm' (25.3.93)	P. Prakash, S K Mishra, C L Prajapat, A Das, J. Phys.: Condens. Matter (2021) 33 155801 DOI: 10.1088/1361-648X/abde66
653	0.653 HoMn_0.99Fe_0.01O₃		0,0,0	P6₃cm (185) (standard)	(a,b,c;0,0,0)	P6₃'cm' (185.200) (standard)	6'mm' (25.3.93)	P. Prakash, S K Mishra, C L Prajapat, A Das, J. Phys.: Condens. Matter (2021) 33 155801 DOI: 10.1088/1361-648X/abde66
654	0.654 HoMn_0.95Fe_0.05O₃		0,0,0	P6₃cm (185) (standard)	(a,b,c;0,0,0)	P6₃'cm' (185.200) (standard)	6'mm' (25.3.93)	P. Prakash, S K Mishra, C L Prajapat, A Das, J. Phys.: Condens. Matter (2021) 33 155801 DOI: 10.1088/1361-648X/abde66
655	0.655 HoMn_0.9Fe_0.1O₃		0,0,0	P6₃cm (185) (standard)	(a,b,c;0,0,0)	P6₃'cm' (185.200) (standard)	6'mm' (25.3.93)	P. Prakash, S K Mishra, C L Prajapat, A Das, J. Phys.: Condens. Matter (2021) 33 155801 DOI: 10.1088/1361-648X/abde66
656	0.656 NdMn₂Ge₂		0,0,0	I4/mmm (139) (standard)	(a,b,c;0,0,0)	Im'm2' (44.231) (b,c,a;0,0,0)	m'm2' (7.3.22)	R. Welter, G. Venturini, E. Ressouche, B. Malaman, Journal of AlAys and Compounds (1995) 218 204 - 215 DOI: 10.1016/0925-8388(94)01378-0
657	0.657 PrMn₂Ge₂		0,0,0	I4/mmm (139) (standard)	(a,b,c;0,0,0)	Im'm2' (44.231) (b,c,a;0,0,0)	m'm2' (7.3.22)	R. Welter, G. Venturini, E. Ressouche, B. Malaman, Journal of AlAys and Compounds (1995) 218 204 - 215 DOI: 10.1016/0925-8388(94)01378-0
658	0.658 BaCuTe₂O₆		0,0,0	P4₁32 (213) (standard)	(a,b,c;0,0,0)	P4₁'32' (213.65) (standard)	4'32' (30.3.114)	A. Samartzis, S. Chillal, A. T. M. N. Islam, K. Siemensmeyer, K. Prokes, D. J. Voneshen, A. Senyshyn, D. Khalyavin, B. Lake, PHYSICAL REVIEW B (2021) 103 094417 DOI: 10.1103/PhysRevB.103.094417
659	0.659 NdMn_0.8Fe_0.2O₃		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pn'ma' (62.448) (standard)	m'm'm (8.4.27)	M. Mihalik, M. Mihalik, A. Hoser, D. M. Pajerowski, D. Kriegner, D. Legut, K. M. Lebecki, M. Vavra, M. Fitta, M. W. Meisel, Physical Review B (2017) 96 134430 DOI: 10.1103/PhysRevB.96.134430
660	0.660 NdMn_0.8Fe_0.2O₃		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pn'ma' (62.448) (standard)	m'm'm (8.4.27)	M. Mihalik, M. Mihalik, A. Hoser, D. M. Pajerowski, D. Kriegner, D. Legut, K. M. Lebecki, M. Vavra, M. Fitta, M. W. Meisel, Physical Review B (2017) 96 134430 DOI: 10.1103/PhysRevB.96.134430
661	0.661 (Lu_0.6Mn_0.4)MnO₃		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pnm'a' (62.447) (standard)	m'm'm (8.4.27)	L. Zhang, A. Donni, V. Y. Pomjakushin, K. Yamaura, A. A. Belik, Inorg. Chem. (2018) 57 14073 - 14085 DOI: 10.1021/acs.inorgchem.8b01470
662	0.662 Mn₃Sn₂		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pn'ma' (62.448) (standard)	m'm'm (8.4.27)	T. Mazet, Q. Recour, B. Malaman, PHYSICAL REVIEW B (2010) 81 174427 DOI: 10.1103/PhysRevB.81.174427
663	0.663 Mn₃Sn₂		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pn'ma' (62.448) (standard)	m'm'm (8.4.27)	T. Mazet, Q. Recour, B. Malaman, PHYSICAL REVIEW B (2010) 81 174427 DOI: 10.1103/PhysRevB.81.174427
664	0.664 Mn₃Sn₂		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	P2₁'/c' (14.79) (-c,a,-b+c;0,0,0)	2'/m' (5.5.16)	T. Mazet, Q. Recour, B. Malaman, PHYSICAL REVIEW B (2010) 81 174427 DOI: 10.1103/PhysRevB.81.174427
665	0.665 CeMnSbO		0,0,0	P4/nmm (129) (standard)	(a,b,c;0,0,0)	P4'/n'm'm (129.416) (standard)	4'/m'm'm (15.5.57)	Q. Zhang, C. M. N. Kumar, W. Tian, K. W. Dennis, A. I. Goldman, D. Vaknin, PHYSICAL REVIEW B (2016) 93 094413 DOI: 10.1103/PhysRevB.93.094413
666	0.666 CeMnSbO		0,0,0	P4/nmm (129) (standard)	(a,b,c;0,0,0)	Pm'mn (59.407) (b,-a,c;0,0,0)	m'mm (8.3.26)	Q. Zhang, C. M. N. Kumar, W. Tian, K. W. Dennis, A. I. Goldman, D. Vaknin, PHYSICAL REVIEW B (2016) 93 094413 DOI: 10.1103/PhysRevB.93.094413
667	0.667 LaMnSbO		0,0,0	P4/nmm (129) (standard)	(a,b,c;0,0,0)	P4'/n'm'm (129.416) (standard)	4'/m'm'm (15.5.57)	Q. Zhang, C. M. N. Kumar, W. Tian, K. W. Dennis, A. I. Goldman, D. Vaknin, PHYSICAL REVIEW B (2016) 93 094413 DOI: 10.1103/PhysRevB.93.094413
668	0.668 PrMnSbO		0,0,0	P4/nmm (129) (standard)	(a,b,c;0,0,0)	Pm'mn (59.407) (b,-a,c;0,0,0)	m'mm (8.3.26)	S. A. J. Kimber, A. H. Hill, Y.-Z. Zhang, H. O. Jeschke, R. Valenti, C. Ritter, I. Schellenberg, W. Hermes, R. Pottgen, D. N. Argyriou, PHYSICAL REVIEW B (2010) 82 100412(R) DOI: 10.1103/PhysRevB.82.100412
669	0.669 Sr₂YbRuO₆		0,0,0	P112₁/n (14) (a,-c,-a+b;0,0,0)	(a,b,c;0,0,0)	P2₁/c (14.75) (a,-c,-a+b;0,0,0)	2/m (5.1.12)	S. Sharma, D. T. Adroja, C. Ritter, D. Khalyavin, P. Manuel, G. B. G. Stenning, A. Sundaresan, A. D. Hillier, P. P. Deen, D. I. Khomskii, S. Langridge, PHYSICAL REVIEW B (2020) 102 134412 DOI: 10.1103/PhysRevB.102.134412
670	0.670 Sr₂YbRuO₆		0,0,0	P2₁/n (14) (a,b,-a+c;0,0,0)	(a,b,c;0,0,0)	P2₁/c (14.75) (a,b,-a+c;0,0,0)	2/m (5.1.12)	Y. Doi, Y. Hinatsu, A. Nakamura, Y. Ishii, Y. Morii, J. Mater. Chem. (2003) 13 1758 - 1763 DOI: 10.1039/b301935g
671	0.671 Sr₂TmRuO₆		0,0,0	P2₁/n (14) (a,b,-a+c;0,0,0)	(a,b,c;0,0,0)	P2₁/c (14.75) (a,b,-a+c;0,0,0)	2/m (5.1.12)	Y. Doi, Y. Hinatsu, A. Nakamura, Y. Ishii, Y. Morii, J. Mater. Chem. (2003) 13 1758 - 1763 DOI: 10.1039/b301935g
672	0.672 CaCu₃Fe₂Sb₂O₁₂		0,0,0	Pn-3 (201) (standard)	(a,b,c;0,0,0)	Pn'n'n (48.260) (standard)	m'm'm (8.4.27)	S. A. Larregola, J. Zhou, J. A. Alonso, V. Pomjakushin, J. B. Goodenough, Inorg. Chem. (2014) 53 4281 - 4283 DOI: 10.1021/ic500458m
673	0.673 MnFe₄Si₃		0,0,0	P6₃/mcm (193) (standard)	(a,b,c;0,0,0)	P6₃/mc'm' (193.260) (standard)	6/mm'm' (27.6.105)	O. Gourdon, M. Gottschlich, J. Persson, C. de la Cruz, V. Petricek, M. A. McGuire, T. Bruckel, Journal of Solid State Chemistry (2014) 216 56 - 64 DOI: 10.1016/j.jssc.2014.05.001
674	0.674 MnFe₄Si₃		0,0,0	P6₃/mcm (193) (standard)	(a,b,c;0,0,0)	P6₃/mc'm' (193.260) (standard)	6/mm'm' (27.6.105)	O. Gourdon, M. Gottschlich, J. Persson, C. de la Cruz, V. Petricek, M. A. McGuire, T. Bruckel, Journal of Solid State Chemistry (2014) 216 56 - 64 DOI: 10.1016/j.jssc.2014.05.001
675	0.675 MnFe₄Si₃		0,0,0	P6₃/mcm (193) (standard)	(a,b,c;0,0,0)	P6₃/mc'm' (193.260) (standard)	6/mm'm' (27.6.105)	H. Binczycka, Z. Dimitrijevic, B. Gajic, A. Szytula, physica status solidi (a) (1973) 19 K13 - K17 DOI: 10.1002/pssa.2210190145
676	0.676 Nd_0.95Sr_0.05CrO₃		0,0,0	'P (62) (b,c,a;0,0,0)	(a,b,c;0,0,0)	Pnma (62.441) (b,c,a;0,0,0)	mmm (8.1.24)	K. R. Chakraborty, S. Mukherjee, S. D. Kaushik, S. Rayaprol, C. L. Prajapat, M. R. Singh, V. Siruguri, A. K. Tyagi, S. M. Yusuf, Journal of Magnetism and Magnetic Materials (2014) 361 81 - 87 DOI: 10.1016/j.jmmm.2014.02.018
677	0.677 Nd_0.9Sr_0.1CrO₃		0,0,0	Pbnm (62) (b,c,a;0,0,0)	(a,b,c;0,0,0)	Pnma (62.441) (b,c,a;0,0,0)	mmm (8.1.24)	K. R. Chakraborty, S. Mukherjee, S. D. Kaushik, S. Rayaprol, C. L. Prajapat, M. R. Singh, V. Siruguri, A. K. Tyagi, S. M. Yusuf, Journal of Magnetism and Magnetic Materials (2014) 361 81 - 87 DOI: 10.1016/j.jmmm.2014.02.018
678	0.678 Nd_0.85Sr_0.15CrO₃		0,0,0	Pbnm (62) (b,c,a;0,0,0)	(a,b,c;0,0,0)	Pnma (62.441) (b,c,a;0,0,0)	mmm (8.1.24)	K. R. Chakraborty, S. Mukherjee, S. D. Kaushik, S. Rayaprol, C. L. Prajapat, M. R. Singh, V. Siruguri, A. K. Tyagi, S. M. Yusuf, Journal of Magnetism and Magnetic Materials (2014) 361 81 - 87 DOI: 10.1016/j.jmmm.2014.02.018
679	0.679 TbCr_0.5Mn_0.5O₃		0,0,0	Pbnm (62) (b,c,a;0,0,0)	(a,b,c;0,0,0)	Pn'ma' (62.448) (b,c,a;0,0,0)	m'm'm (8.4.27)	M. Staruch, V. Sharma, C. dela Cruz, R. Ramprasad, M. Jain, Journal of Applied Physics (2014) 116 033919 DOI: 10.1063/1.4890637
680	0.680 Bi_0.8La_0.2Fe_0.5Mn_0.5O₃		0,0,0	Imma (74) (standard)	(a,b,c;0,0,0)	Imm'a' (74.559) (-b,a,c;1/4,1/4,1/4)	m'm'm (8.4.27)	J. Bertinshaw, D. L. Cortie, Z. X. Cheng, M. Avdeev, A. J. Studer, F. Klose, C. Ulrich, X. L. Wang, PHYSICAL REVIEW B (2014) 89 144422 DOI: 10.1103/PhysRevB.89.144422
681	0.681 Ce₄Sb₃		0,0,0	I-43d (220) (standard)	(a,b,c;0,0,0)	I-4'2d' (122.336) (a,b,c;0,-1/4,1/8)	-4'2m' (14.4.51)	R. Nirmala, A.V. Morozkin, O. Isnard, A.K. Nigam, Journal of Magnetism and Magnetic Materials (2009) 321 188 - 191 DOI: 10.1016/j.jmmm.2008.08.102
682	0.682 Ca₂FeOsO₆		0,0,0	P2₁/n (14) (a,b,-a+c;0,0,0)	(a,b,c;0,0,0)	P2₁'/c' (14.79) (a,b,-a+c;0,0,0)	2'/m' (5.5.16)	R. Morrow, J. W. Freeland, P. M. Woodward, Inorg. Chem. (2014) 53 7983 - 7992 DOI: 10.1021/ic5006715
683	0.683 SrCaFeOsO₆		0,0,0	P2₁/n (14) (a,b,-a+c;0,0,0)	(a,b,c;0,0,0)	P2₁'/c' (14.79) (a,b,-a+c;0,0,0)	2'/m' (5.5.16)	R. Morrow, J. W. Freeland, P. M. Woodward, Inorg. Chem. (2014) 53 7983 - 7992 DOI: 10.1021/ic5006715
684	0.684 TbPt		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pn'm'a (62.446) (standard)	m'm'm (8.4.27)	A. Castets, D. Gignoux, J.C. Gomez-Sal, JOURNAL OF SOLID STATE CHEMISTRY (1980) 31 197 - 207 DOI: 10.1016/0022-4596(80)90021-3
685	0.685 ErPt		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pnm'a' (62.447) (standard)	m'm'm (8.4.27)	A. Castets, D. Gignoux, J.C. Gomez-Sal, JOURNAL OF SOLID STATE CHEMISTRY (1980) 31 197 - 207 DOI: 10.1016/0022-4596(80)90021-3
686	0.686 HoPt		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pnm'a' (62.447) (standard)	m'm'm (8.4.27)	A. Castets, D. Gignoux, J.C. Gomez-Sal, JOURNAL OF SOLID STATE CHEMISTRY (1980) 31 197 - 207 DOI: 10.1016/0022-4596(80)90021-3
687	0.687 DyPt		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pn'm'a (62.446) (standard)	m'm'm (8.4.27)	A. Castets, D. Gignoux, J.C. Gomez-Sal, JOURNAL OF SOLID STATE CHEMISTRY (1980) 31 197 - 207 DOI: 10.1016/0022-4596(80)90021-3
688	0.688 TmPt		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pnm'a' (62.447) (standard)	m'm'm (8.4.27)	A. Castets, D. Gignoux, J.C. Gomez-Sal, JOURNAL OF SOLID STATE CHEMISTRY (1980) 31 197 - 207 DOI: 10.1016/0022-4596(80)90021-3
689	0.689 PrPt		0,0,0	Cmcm (63) (standard)	(a,b,c;0,0,0)	Cm'c'm (63.462) (standard)	m'm'm (8.4.27)	A. Castets, D. Gignoux, J. C. Gomez-Sal, E. Roudaut, Solid State Communications (1982) 44 1329 - 1334 DOI: 10.1016/0038-1098(82)91116-4
690	0.690 NdPt		0,0,0	Cmcm (63) (standard)	(a,b,c;0,0,0)	C2'/c' (15.89) (standard)	2'/m' (5.5.16)	A. Castets, D. Gignoux, J. C. Gomez-Sal, E. Roudaut, Solid State Communications (1982) 44 1329 - 1334 DOI: 10.1016/0038-1098(82)91116-4
691	0.691 CaCo_1.86As₂		1,1,1	I4/mmm (139) (standard)	(a,b,c;0,0,0)	P_I4/nnc (126.386) (a,b,c;1/4,1/4,1/4)	4/mmm1' (15.2.54)	D. G. Quirinale, V. K. Anand, M. G. Kim, A. Pandey, A. Huq, P. W. Stephens, T. W. Heitmann, A. Kreyssig, R. J. McQueeney, D. C. Johnston, A. I. Goldman, PHYSICAL REVIEW B (2013) 88 174420 DOI: 10.1103/PhysRevB.88.174420
692	0.692 Ba₄Ru₃O₁₀		0,0,0	Cmce (64) (standard)	(a,b,c;0,0,0)	Cm'ca (64.471) (standard)	m'mm (8.3.26)	Y. Klein, G. Rousse, F. Damay, F. Porcher, G. Andre, I. Terasaki, PHYSICAL REVIEW B (2011) 84 054439 DOI: 10.1103/PhysRevB.84.054439
693	0.693 Ba₄Ru₃O₁₀		0,0,0	Cmce (64) (standard)	(a,b,c;0,0,0)	Cmc'a (64.472) (standard)	m'mm (8.3.26)	J. Sannigrahi, A. Paul, A. Banerjee, 4 D. Khalyavin, A. D. Hillier, K. Yokoyama, A. K. Bera, M. R. Lees, I. Dasgupta, S. Majumdar, D. T. Adroja, PHYSICAL REVIEW B (2021) 103 144431 DOI: 10.1103/PhysRevB.103.144431
694	0.694 Bi₂CuO₄		0,0,0	P4/ncc (130) (a,b,c;1/4,-1/4,0)	(a,b,c;0,0,0)	P4/n'c'c' (130.431) (a,b,c;1/4,-1/4,0)	4/m'm'm' (15.7.59)	J Konstantinovic, G Stanisic, M Ain, G Parette, J. Phys.: Condens. Matter (1991) 3 381 - 384 DOI: 10.1088/0953-8984/3/3/014
695	0.695 Bi₂CuO₄		0,0,0	P4/ncc (130) (standard)	(a,b,c;0,0,0)	Pc'cn (56.367) (b,-a,c;1/2,0,0)	m'mm (8.3.26)	K. Yamada, K. Takada, S. Hosoya, Y. Watanabe, Y. Endoh, N. Tomonaga, T. Suzuki, T. Ishigaki, T. Kamiyama, H. Asano, F. Izumi, J. Phys. Soc. Jpn (1991) 60 2406 - 2414 DOI: 10.1143/JPSJ.60.2406
696	0.696 SmCrO₃		0,0,0	Pbnm (62) (b,c,a;0,0,0)	(a,b,c;0,0,0)	Pn'ma' (62.448) (b,c,a;0,0,0)	m'm'm (8.4.27)	T. Sau, P. Yadav, S. Sharma, R. Raghunathan, P. Manuel, Vaclav Petricek, U. P. Deshpande, N. P. Lalla, PHYSICAL REVIEW B (2021) 103 144418 DOI: 10.1103/PhysRevB.103.144418
697	0.697 SmCrO₃		0,0,0	Pbnm (62) (b,c,a;0,0,0)	(a,b,c;0,0,0)	Pn'm'a (62.446) (b,c,a;0,0,0)	m'm'm (8.4.27)	T. Sau, P. Yadav, S. Sharma, R. Raghunathan, P. Manuel, V. Petricek, U. P. Deshpande, N. P. Lalla, PHYSICAL REVIEW B (2021) 103 144418 DOI: 10.1103/PhysRevB.103.144418
698	0.698 SmCrO₃		0,0,0	Pbnm (62) (b,c,a;0,0,0)	(a,b,c;0,0,0)	Pbn'm' (62.446) (b,c,a;0,0,0)	m'm'm (8.4.27)	T. Sau, P. Yadav, S. Sharma, R. Raghunathan, P. Manuel, V. Petricek, U. P. Deshpande, N. P. Lalla, PHYSICAL REVIEW B (2021) 103 144418 DOI: 10.1103/PhysRevB.103.144418
699	0.699 LiMn₆Sn₆		0,0,0	P6/mmm (191) (standard)	(a,b,c;0,0,0)	Cmm'm' (65.486) (a,a+2b,c;0,0,0)	m'm'm (8.4.27)	T. Mazet, H. Ihou-Mouko, J.F. Mareche, B. Malaman, Eur. Phys. J. B (2006) 51 173 - 180 DOI: 10.1140/epjb/e2006-00207-9
700	0.700 TbMn₆Sn₆		0,0,0	P6/mmm (191) (standard)	(a,b,c;0,0,0)	P6/mm'm' (191.240) (standard)	6/mm'm' (27.6.105)	B. Chafik, E. Idrissi, G. Venturini, B. Malaman, D. Fruchart, Journal of the Less-Common Metals (1991) 175 143 - 154 DOI: 10.1016/0022-5088(91)90359-C
701	0.701 TbMn₆Sn₆		0,0,0	P6/mmm (191) (standard)	(a,b,c;0,0,0)	P6/mm'm' (191.240) (standard)	6/mm'm' (27.6.105)	B. Chafik, E. Idrissi, G. Venturini, B. Malaman, D. Fruchart, Journal of the Less-Common Metals (1991) 175 143 - 154 DOI: 10.1016/0022-5088(91)90359-C
702	0.702 TbMn₆Sn₆		0,0,0	P6/mmm (191) (standard)	(a,b,c;0,0,0)	C2'/m' (12.62) (a,a+2b,c;0,0,0)	2'/m' (5.5.16)	B. Chafik, E. Idrissi, G. Venturini, B. Malaman, D. Fruchart, Journal of the Less-Common Metals (1991) 175 143 - 154 DOI: 10.1016/0022-5088(91)90359-C
703	0.703 HoMn₆Sn₆		0,0,0	P6/mmm (191) (standard)	(a,b,c;0,0,0)	C2'/m' (12.62) (a,a+2b,c;0,0,0)	2'/m' (5.5.16)	B. Chafik, E. Idrissi, G. Venturini, B. Malaman, D. Fruchart, Journal of the Less-Common Metals (1991) 175 143 - 154 DOI: 10.1016/0022-5088(91)90359-C
704	0.704 HoMn₆Sn₆		0,0,0	P6/mmm (191) (standard)	(a,b,c;0,0,0)	C2'/m' (12.62) (a,a+2b,c;0,0,0)	2'/m' (5.5.16)	B. Chafik, E. Idrissi, G. Venturini, B. Malaman, D. Fruchart, Journal of the Less-Common Metals (1991) 175 143 - 154 DOI: 10.1016/0022-5088(91)90359-C
705	0.705 HoMn₆Sn₆		0,0,0	P6/mmm (191) (standard)	(a,b,c;0,0,0)	Cmm'm' (65.486) (a,a+2b,c;0,0,0)	m'm'm (8.4.27)	B. Chafik, E. Idrissi, G. Venturini, B. Malaman, D. Fruchart, Journal of the Less-Common Metals (1991) 175 143 - 154 DOI: 10.1016/0022-5088(91)90359-C
706	0.706 Tb₂Ir₃Ga₉		0,0,0	Cmcm (63) (standard)	(a,b,c;0,0,0)	Cm'cm' (63.464) (standard)	m'm'm (8.4.27)	M. A. Khan, Q. Zhang, J.-K. Bao, R. S. Fishman, A. S. Botana, Y. Choi, G. Fabbris, D. Haskel, J. Singleton, J. F. Mitchell, PHYSICAL REVIEW MATERIALS (2019) 3 114411 DOI: 10.1103/PhysRevMaterials.3.114411
707	0.707 Tb₂Ir₃Ga₉		0,0,0	Cmcm (63) (standard)	(a,b,c;0,0,0)	Cm'cm' (63.464) (standard)	m'm'm (8.4.27)	F. Ye, Z. Morgan, W. Tian, S. Chi, X. Wang, M. E. Manley, D. Parker, M. A. Khan, J. F. Mitchell, R. Fishman, PHYSICAL REVIEW B (2021) 103 184413 DOI: 10.1103/PhysRevB.103.184413
708	0.708 CrNb₄S₈		0,0,0	P6₃/mmc (194) (standard)	(a,b,c;0,0,0)	P6₃'/m'm'c (194.268) (standard)	6'/m'mm' (27.5.104)	B. Van Laar, H.M. Rietveld, D.J.W. Ijdo, JOURNAL OF SOLID STATE CHEMISTRY (1971) 3 154 - 160 DOI: 10.1016/0022-4596(71)90019-3
709	0.709 MnNb₄S₈		0,0,0	P6₃/mmc (194) (standard)	(a,b,c;0,0,0)	Cmc'm' (63.463) (-b,2a+b,c;0,0,0)	m'm'm (8.4.27)	B. Van Laar, H.M. Rietveld, D.J.W. Ijdo, JOURNAL OF SOLID STATE CHEMISTRY (1971) 3 154 - 160 DOI: 10.1016/0022-4596(71)90019-3
710	0.710 MnNb₃S₆		0,0,0	P6₃22 (182) (standard)	(a,b,c;0,0,0)	C22'2₁' (20.34) (-b,2a+b,c;0,0,0)	2'2'2 (6.3.19)	B. Van Laar, H.M. Rietveld, D.J.W. Ijdo, JOURNAL OF SOLID STATE CHEMISTRY (1971) 3 154 - 160 DOI: 10.1016/0022-4596(71)90019-3
711	0.711 MnTa₄S₈		0,0,0	P6₃/mmc (194) (standard)	(a,b,c;0,0,0)	Cmc'm' (63.463) (-b,2a+b,c;0,0,0)	m'm'm (8.4.27)	B. Van Laar, H.M. Rietveld, D.J.W. Ijdo, JOURNAL OF SOLID STATE CHEMISTRY (1971) 3 154 - 160 DOI: 10.1016/0022-4596(71)90019-3
712	0.712 VNb₃S₆		0,0,0	P6₃22 (182) (standard)	(a,b,c;0,0,0)	C2'2'2₁ (20.33) (a,a+2b,c;0,0,0)	2'2'2 (6.3.19)	K. Lu, D. Sapkota, L. DeBeer-Schmitt, Y. Wu, H. B. Cao, N. Mannella, D. Mandrus, A. A. Aczel, G. J. MacDougall, PHYSICAL REVIEW MATERIALS (2020) 4 054416 DOI: 10.1103/PhysRevMaterials.4.054416
713	0.713 NiFe₂O₄		0,0,0	Fd-3m (227) (standard)	(a,b,c;0,0,0)	I4₁/am'd' (141.557) (1/2a+1/2b,-1/2a+1/2b,c;1/4,0,1/4)	4/mm'm' (15.6.58)	B. Sattibabu, T. D. Rao, A. K. Bhatnagar, V. S. Murthy, S. Rayaprol, V. Siruguri, Materials Letters (2020) 277 128325 DOI: 10.1016/j.matlet.2020.128325
714	0.714 Li₂Ni(SO₄)₂		0,0,0	P2₁/c (14) (standard)	(a,b,c;0,0,0)	P2₁/c (14.75) (standard)	2/m (5.1.12)	S. Singh, P. K. Jha, M. Avdeev, W. Zhang, K. Jayanthi, A. Navrotsky, H. N. Alshareef, P. Barpanda, Chem. Mater. (2021) 33 6108 - 6119 DOI: 10.1021/acs.chemmater.1c01669
715	0.715 HoCrWO₆		0,0,0	Pna2₁ (33) (standard)	(a,b,c;0,0,0)	Pna2₁ (33.144) (standard)	mm2 (7.1.20)	C. Dhitala, D. Phamb, T. Lawalb, C. Bucholza, A. Poyrazc, Q. Zhangd, R. Nepale, R. Jine, R. Raif, Journal of Magnetism and Magnetic Materials (2020) 514 167219 DOI: 10.1016/j.jmmm.2020.167219
716	0.716 HoCrWO₆		0,0,0	Pna2₁ (33) (standard)	(a,b,c;0,0,0)	Pna2₁ (33.144) (standard)	mm2 (7.1.20)	C. Dhitala, D. Phamb, T. Lawalb, C. Bucholza, A. Poyrazc, Q. Zhangd, R. Nepale, R. Jine, R. Raif, Journal of Magnetism and Magnetic Materials (2020) 514 167219 DOI: 10.1016/j.jmmm.2020.167219
717	0.717 Pr_0.5Sr_0.4Ba_0.1CoO₃		0,0,0	Imma (74) (standard)	(a,b,c;0,0,0)	Im'm'a (74.558) (standard)	m'm'm (8.4.27)	J. Padilla-Pantoja, A. Romaguera, X. Zhang, J. Herrero-Martin, F. Fauth, J. Blasco, J. L. Garcia-Munoz, PHYSICAL REVIEW B (2021) 104 054411 DOI: 10.1103/PhysRevB.104.054411
718	0.718 Pr_0.5Sr_0.4Ba_0.1CoO₃		0,0,0	I4/mcm (140) (standard)	(a,b,c;0,0,0)	Fm'm'm (69.524) (c,a-b,a+b;1/2,0,0)	m'm'm (8.4.27)	J. Padilla-Pantoja, A. Romaguera, X. Zhang, J. Herrero-Martin, F. Fauth, J. Blasco, J. L. Garcia-Munoz, PHYSICAL REVIEW B (2021) 104 054411 DOI: 10.1103/PhysRevB.104.054411
719	0.719 Yb_0.42Sc_0.58FeO₃		0,0,0	P6₃cm (185) (standard)	(a,b,c;0,0,0)	P6₃c'm' (185.201) (standard)	6m'm' (25.4.94)	Y. S. Tang, S. M. Wang, L. Lin, V. O. Garlea, T. Zou, S. H. Zheng, H.-M. Zhang, J. T. Zhou, Z. L. Luo, Z. B. Yan, S. Dong, T. Charlton, J.-M. Liu, PHYSICAL REVIEW B (2021) 103 174102 DOI: 10.1103/PhysRevB.103.174102
720	0.720 Yb_0.42Sc_0.58FeO₃		0,0,0	P6₃cm (185) (standard)	(a,b,c;0,0,0)	P6₃ (173.129) (standard)	6 (21.1.76)	Y. S. Tang, S. M. Wang, L. Lin, V. O. Garlea, T. Zou, S. H. Zheng, H.-M. Zhang, J. T. Zhou, Z. L. Luo, Z. B. Yan, S. Dong, T. Charlton, J.-M. Liu, PHYSICAL REVIEW B (2021) 103 174102 DOI: 10.1103/PhysRevB.103.174102
721	0.721 Yb_0.42Sc_0.58FeO₃		0,0,0	P6₃cm (185) (standard)	(a,b,c;0,0,0)	P6₃ (173.129) (standard)	6 (21.1.76)	Y. S. Tang, S. M. Wang, L. Lin, V. O. Garlea, T. Zou, S. H. Zheng, H.-M. Zhang, J. T. Zhou, Z. L. Luo, Z. B. Yan, S. Dong, T. Charlton, J.-M. Liu, PHYSICAL REVIEW B (2021) 103 174102 DOI: 10.1103/PhysRevB.103.174102
722	0.722 Mn₄Nb₂O₉		0,0,0	Cc (9) (standard)	(a,b,c;0,0,0)	Cc (9.37) (standard)	m (4.1.9)	E. Solana-Madruga, C. Ritter, C. Aguilar-Maldonado, Olivier Mentre, J. Paul Attfield, A. M. Arevalo-Lopez, Chem. Commun. (2021) 57 8441 - 8444 DOI: 10.1039/d1cc02782d
723	0.723 YbCl₃		0,0,0	C2/m (12) (standard)	(a,b,c;0,0,0)	C2'/m (12.60) (standard)	2'/m (5.3.14)	G. Sala, M. B. Stone, B. K. Rai, A. F. May, P. Laurell, V. O. Garlea, N. P. Butch, M. D. Lumsden, G. Ehlers, G. Pokharel, A. Podlesnyak, D. Mandrus, D. S. Parker, S. Okamoto, G. B. Halasz, A. D. Christianson, Nature Communications (2021) 12 171 DOI: 10.1038/s41467-020-20335-5
724	0.724 BaCoSiO₄		0,0,0	P6₃ (173) (standard)	(a,b,c;0,0,0)	P6₃ (173.129) (standard)	6 (21.1.76)	L. Ding, X. Xu, H. O. Jeschke, X. Bai, E. Feng, A. S. Alemayehu, J. Kim, F.-T. Huang, Q. Zhang, X. Ding, N. Harrison, V. Zapf, D. Khomskii, I. I. Mazin, S.-W. Cheong, H. Cao, NATURE COMMUNICATIONS (2021) 12 5339 DOI: 10.1038/s41467-021-25657-6
725	0.725 Ce₅TeO₈		0,0,0	Fd-3m (227) (standard)	(a,b,c;1/8,1/8,1/8)	I4₁/am'd' (141.557) (1/2a+1/2b,-1/2a+1/2b,c;1/8,-1/8,1/8)	4/mm'm' (15.6.58)	S. Podchezertsev, N. Barrier, A. Pautrat, E. Suard, M. Retuerto, J. A. Alonso, M. T. Fernandez-Diaz, J. Rodriguez-Carvajal, Inorg. Chem. (2021) 60 13990 - 14001 DOI: 10.1021/acs.inorgchem.1c01131
726	0.726 CsMn₂F₆		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pnm'a' (62.447) (standard)	m'm'm (8.4.27)	V. V. Klepov, K. A. Pace, A. A. Berseneva, J. B. Felder, S. Calder, G. Morrison, Q. Zhang, M. J. Kirkham, D. S. Parker, H.-C. zur Loye, J. Am. Chem. Soc. (2021) 143 11554 - 11567 DOI: 10.1021/jacs.1c04245
727	0.727 CsMn₂F₆		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	P2₁/c (14.75) (-c,a,-b+c;0,0,0)	2/m (5.1.12)	V. V. Klepov, K. A. Pace, A. A. Berseneva, J. B. Felder, S. Calder, G. Morrison, Q. Zhang, M. J. Kirkham, D. S. Parker, H.-C. zur Loye, J. Am. Chem. Soc. (2021) 143 11554 - 11567 DOI: 10.1021/jacs.1c04245
728	0.728 MoP₃SiO₁₁		0,0,0	R-3c (167) (standard)	(a,b,c;0,0,0)	C2/c' (15.88) (1/3a+2/3b+2/3c,-a,-1/3a-2/3b+1/3c;0,1/2,0)	2/m' (5.4.15)	D. I. Badrtdinov, L. Ding, C. Ritter, J. Hembacher, N. Ahmed, Y. Skourski, A. A. Tsirlin, PHYSICAL REVIEW B (2021) 104 094428 DOI: 10.1103/PhysRevB.104.094428
729	0.729 ErNi₄B		0,0,0	P6/mmm (191) (standard)	(a,b,c;0,0,0)	P6/mm'm' (191.240) (standard)	6/mm'm' (27.6.105)	E. Alleno, C. Mazumdar, J. Solid State Chem. (2013) 202 15 - 21 DOI: 10.1016/j.jssc.2013.03.003
730	0.730 TbNi₄B		0,0,0	P6/mmm (191) (standard)	(a,b,c;0,0,0)	C2'/m' (12.62) (a,a+2b,c;0,0,0)	2'/m' (5.5.16)	E. Alleno, C. Mazumdar, J. Solid State Chem. (2013) 202 15 - 21 DOI: 10.1016/j.jssc.2013.03.003
731	0.731 HoNi₄B		0,0,0	P6/mmm (191) (standard)	(a,b,c;0,0,0)	C2'/m' (12.62) (a,a+2b,c;0,0,0)	2'/m' (5.5.16)	E. Alleno, C. Mazumdar, J. Solid State Chem. (2013) 202 15 - 21 DOI: 10.1016/j.jssc.2013.03.003
732	0.732 SrRuO₃		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pn'm'a (62.446) (standard)	m'm'm (8.4.27)	S.N. Bushmeleva, V.Yu. Pomjakushin, E.V. Pomjakushina, D.V. Sheptyakov, A.M. Balagurov, JMMM (2006) 305 491 - 496 DOI: 10.1016/j.jmmm.2006.02.089
733	0.733 AgRuO₃		0,0,0	R-3c (167) (standard)	(a,b,c;0,0,0)	R-3'c' (167.106) (standard)	-3'm' (20.4.74)	W. Schnelle, B.E. Prasad, C. Felser, M. Jansen, E.V. Komleva, S.V. Streltsov, I.I. Mazin, D. Khalyavin, P. Manuel, S. Pal, D.V.S. Muthu, A.K. Sood, E.S. Klyushina, B. Lake, J.C. Orain, H. Luetkens, Phys. Rev. B (2021) 103 214413 DOI: 10.1103/PhysRevB.103.214413
734	0.734 Mn₃Ta₂O₈		0,0,0	I4₁/a (88) (standard)	(a,b,c;0,0,0)	C2'/c (15.87) (a+b,c,-b;0,0,0)	2'/m (5.3.14)	J. Grins, S. Esmaeilzadeh, P. Berastegui, S. Eriksson, J. Mater. Chem. (1999) 9 1575 - 1578 DOI: 10.1039/A902149C
735	0.735 LaBaMn₂O₅		0,0,0	P4/nmm (129) (standard)	(a,b,c;0,0,0)	P4/nm'm' (129.417) (standard)	4/mm'm' (15.6.58)	F. Millange, V. Caignaert, B. Domenges, B. Raveau, E. Suard, Chem. Mater. (1998) 10 1974 - 1983 DOI: 10.1021/cm980130v
736	0.736 LaBaMn₂O₆		0,0,0	Pm-3m (221) (standard)	(a,b,c;0,0,0)	P4/mm'm' (123.345) (standard)	4/mm'm' (15.6.58)	F. Millange, V. Caignaert, B. Domenges, B. Raveau, E. Suard, Chem. Mater. (1998) 10 1974 - 1983 DOI: 10.1021/cm980130v
737	0.737 LaBaMn₂O₆		0,0,0	P4/mmm (123) (standard)	(a,b,c;0,0,0)	P4/mm'm' (123.345) (standard)	4/mm'm' (15.6.58)	F. Millange, V. Caignaert, B. Domenges, B. Raveau, E. Suard, Chem. Mater. (1998) 10 1974 - 1983 DOI: 10.1021/cm980130v
738	0.738 LaBaMn₂O₆		0,0,0	P4/mmm (123) (standard)	(a,b,c;0,0,0)	P4/mm'm' (123.345) (standard)	4/mm'm' (15.6.58)	F. Millange, V. Caignaert, B. Domenges, B. Raveau, E. Suard, Chem. Mater. (1998) 10 1974 - 1983 DOI: 10.1021/cm980130v
739	0.739 YBaMn₂O₅		0,0,0	P4/nmm (129) (standard)	(a,b,c;0,0,0)	P4/nm'm' (129.417) (standard)	4/mm'm' (15.6.58)	F. Millange, E. Suard, V. Caignaert, B. Raveau, Materials Research Bulletin (1999) 34 1 - 9 DOI: 10.1016/S0025-5408(98)00214-1
740	0.740 Dy₃Ga₅O₁₂		0,0,0	Ia-3d (230) (standard)	(a,b,c;0,0,0)	Ia-3d' (230.148) (standard)	m-3m' (32.4.121)	I. A. Kibalin, F. Damay, X. Fabreges, A. Gukassov, S. Petit, Phys. Rev. Res. (2020) 2 033509 DOI: 10.1103/PhysRevResearch.2.033509
741	0.741 Er₃Ga₅O₁₂		0,0,0	Ia-3d (230) (standard)	(a,b,c;0,0,0)	Ia-3d' (230.148) (standard)	m-3m' (32.4.121)	Y. Cai, M. N. Wilson, J. Beare, C. Lygouras, G. Thomas, D. R. Yahne, K. Ross, K. M. Taddei, G. Sala, H. A. Dabkowska, A. A. Aczel, G. M. Luke, Phys. Rev. B (2019) 100 184415 DOI: 10.1103/PhysRevB.100.184415
742	0.742 Tb₃Ga₅O₁₂		0,0,0	Ia-3d (230) (standard)	(a,b,c;0,0,0)	Ia-3d' (230.148) (standard)	m-3m' (32.4.121)	R. Wawrzynczak, B. Tomasello, P. Manuel, D. Khalyavin, M. D. Le, T. Guidi, A. Cervellino, T. Ziman, M. Boehm, G. J. Nilsen, T. Fennell, Phys. Rev. B (2019) 100 094442 DOI: 10.1103/PhysRevB.100.094442
743	0.743 Ho₃Al₅O₁₂		0,0,0	Ia-3d (230) (standard)	(a,b,c;0,0,0)	Ia-3d' (230.148) (standard)	m-3m' (32.4.121)	J. Hammann, Acta Cryst. B (1969) 25 1853 - 1856 DOI: 10.1107/S0567740869004833
744	0.744 Tb₃Al₅O₁₂		0,0,0	Ia-3d (230) (standard)	(a,b,c;0,0,0)	Ia-3d' (230.148) (standard)	m-3m' (32.4.121)	J. Hammann, Acta Cryst. B (1969) 25 1853 - 1856 DOI: 10.1107/S0567740869004833
745	0.745 Ho₃Ga₅O₁₂		0,0,0	Ia-3d (230) (standard)	(a,b,c;0,0,0)	Ia-3d' (230.148) (standard)	m-3m' (32.4.121)	J. Hammann, M. Ocio, J. Physique (1977) 38 463 - 471 DOI: 10.1051/jphys:01977003805046300
746	0.746 Tb₃Ga₅O₁₂		0,0,0	Ia-3d (230) (standard)	(a,b,c;0,0,0)	Ia-3d' (230.148) (standard)	m-3m' (32.4.121)	J. Hammann, M. Ocio, J. Physique (1977) 38 463 - 471 DOI: 10.1051/jphys:01977003805046300
747	0.747 Ba₃CoIr₂O₉		0,0,0	C2/c (15) (standard)	(a,b,c;0,0,0)	C2/c (15.85) (standard)	2/m (5.1.12)	C. Garg, D. Roy, M. Lonsky, P. Manuel, A. Cervellino, J. Muller, M. Kabir, S. Nair, PHYSICAL REVIEW B (2021) 103 014437 DOI: 10.1103/PhysRevB.103.014437
748	0.748 Ba₃NiRu₂O₉		0,0,0	P6₃/mmc (194) (standard)	(a,b,c;0,0,0)	P6₃'/m'm'c (194.268) (standard)	6'/m'mm' (27.5.104)	P. Lightfoot, P. D. Battle, JOURNAL OF SOLID STATE CHEMISTRY (1990) 89 174 - 183 DOI: 10.1016/0022-4596(90)90309-L
749	0.749 Ba₃CoRu₂O₉		1,0,0	Cmcm (63) (standard)	(a,b,c;0,0,0)	P_Bnma (62.454) (b,c,a;0,0,0)	mmm1' (8.2.25)	P. Lightfoot, P. D. Battle, JOURNAL OF SOLID STATE CHEMISTRY (1990) 89 174 - 183 DOI: 10.1016/0022-4596(90)90309-L
750	0.750 Ba₃CoRu₂O₉		1/2,0,0	P6₃/mmc (194) (standard)	(b,2a+b,-c;0,0,0)	P_Bnma (62.454) (b,c,a;0,0,0)	mmm1' (8.2.25)	J. T. Rijssenbeek, Q. Huang, R. W. Erwin, H. W. Zandbergen, R. J. Cava, Journal of Solid State Chemistry (1999) 146 65 - 72 DOI: 10.1006/jssc.1999.8309
751	0.751 Ca₂YZr₂Fe₃O₁₂		0,0,0	Ia-3d (230) (standard)	(a-c,-a+b,1/2a+1/2b+1/2c;0,0,0)	R-3'c (167.105) (standard)	-3'm (20.3.73)	J. Milam-Guerrero, M. Zheng, N. R. Spence, M. Falsaperna, S. Calder, S. Lapidus, P. J. Saines, B. C. Melot, Inorg. Chem. (2021) 60 8500 - 8506 DOI: 10.1021/acs.inorgchem.1c00113
752	0.752 Ca₂YZr₂Fe₃O₁₂		0,0,0	Ia-3d (230) (standard)	(a-c,-a+b,1/2a+1/2b+1/2c;0,0,0)	R-3'c (167.105) (standard)	-3'm (20.3.73)	J. Milam-Guerrero, M. Zheng, N. R. Spence, M. Falsaperna, S. Calder, S. Lapidus, P. J. Saines, B. C. Melot, Inorg. Chem. (2021) 60 8500 - 8506 DOI: 10.1021/acs.inorgchem.1c00113
753	0.753 Ca₂LaZr₂Fe₃O₁₂		0,0,0	Ia-3d (230) (standard)	(a-c,-a+b,1/2a+1/2b+1/2c;0,0,0)	R-3'c (167.105) (standard)	-3'm (20.3.73)	J. Milam-Guerrero, M. Zheng, N. R. Spence, M. Falsaperna, S. Calder, S. Lapidus, P. J. Saines, B. C. Melot, Inorg. Chem. (2021) 60 8500 - 8506 DOI: 10.1021/acs.inorgchem.1c00113
754	0.754 Ca₂LaZr₂Fe₃O₁₂		0,0,0	Ia-3d (230) (standard)	(a-c,-a+b,1/2a+1/2b+1/2c;0,0,0)	R-3'c (167.105) (standard)	-3'm (20.3.73)	J. Milam-Guerrero, M. Zheng, N. R. Spence, M. Falsaperna, S. Calder, S. Lapidus, P. J. Saines, B. C. Melot, Inorg. Chem. (2021) 60 8500 - 8506 DOI: 10.1021/acs.inorgchem.1c00113
755	0.755 Mn₂SeO₃F₂		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pn'ma' (62.448) (standard)	m'm'm (8.4.27)	T. Zhu, O. Mentre, H. Yang, Y. Jin, X. Zhang, Á. M. Arevalo-Lopez, C. Ritter, K.-Y. Choi, M. Lu, Inorg. Chem. (2021) 60 12001 - 12008 DOI: 10.1021/acs.inorgchem.1c01074
756	0.756 GaV₄S₈		0,0,0	R3m (160) (standard)	(a,b,c;0,0,0)	R3m' (160.67) (standard)	3m' (19.3.70)	S. J. R. Holt, C. Ritter, M. R. Lees, G. Balakrishnan, J. Phys.: Condens. Matter (2021) 33 255802 DOI: 10.1088/1361-648X/abf9bb
757	0.757 CeFeO₃		0,0,0	Pbnm (62) (b,c,a;0,0,0)	(a,b,c;0,0,0)	Pn'ma' (62.448) (b,c,a;0,0,0)	m'm'm (8.4.27)	C. Ritter, M. Ceretti, W. Paulus, J. Phys.: Condens. Matter (2021) 33 215802 DOI: 10.1088/1361-648X/abe64a
758	0.758 CeFeO₃		0,0,0	Pbnm (62) (b,c,a;0,0,0)	(a,b,c;0,0,0)	Pnma (62.441) (b,c,a;0,0,0)	mmm (8.1.24)	C. Ritter, M. Ceretti, W. Paulus, J. Phys.: Condens. Matter (2021) 33 215802 DOI: 10.1088/1361-648X/abe64a
759	0.759 CeFeO₃		0,0,0	Pbnm (62) (b,c,a;0,0,0)	(a,b,c;0,0,0)	Pnma (62.441) (b,c,a;0,0,0)	mmm (8.1.24)	C. Ritter, M. Ceretti, W. Paulus, J. Phys.: Condens. Matter (2021) 33 215802 DOI: 10.1088/1361-648X/abe64a
760	0.760 FeOHSO₄		0,0,0	C2/c (15) (standard)	(a,b,c;0,0,0)	C2'/c' (15.89) (standard)	2'/m' (5.5.16)	Avdeev, M., Singh, S., Barpanda, P., Ling, C.D., Inorg. Chem. (2021) 60 15128 - 15130 DOI: 10.1021/acs.inorgchem.1c02544
761	0.761 SrFe₂Se₂O		0,0,0	Pmmn (59) (standard)	(a,b,c;0,0,0)	Pm'm'n' (59.411) (standard)	m'm'm' (8.5.28)	H. Guo, M. T. Fernandez-Diaz, A. C. Komarek, S. Huh, P. Adler, M. Valldor, Eur. J. Inorg. Chem. (2017) ? 3829 - 3833 DOI: 10.1002/ejic.201700684
762	0.762 SrFe₂S₂O		0,0,0	Pmmn (59) (standard)	(a,b,c;0,0,0)	Pm'm'n' (59.411) (standard)	m'm'm' (8.5.28)	H. Guo, M. T. Fernandez-Diaz, A. C. Komarek, S. Huh, P. Adler, M. Valldor, Eur. J. Inorg. Chem. (2017) ? 3829 - 3833 DOI: 10.1002/ejic.201700684
763	0.763 Mn₅(PO₄)₂(PO₃(OH))₂(HOH)₄		0,0,0	C2/c (15) (standard)	(a,b,c;0,0,0)	C2'/c' (15.89) (standard)	2'/m' (5.5.16)	S. Park, A. Hartl, D. Sheptyakov, M. Hoelzel, A. Arauzo, Symmetry (2021) 13 1688 DOI: 10.3390/sym13091688
764	0.764 Mn₅(PO₄)₂(PO₃(OH))₂(HOH)₄		0,0,0	C2/c (15) (standard)	(a,b,c;0,0,0)	C2'/c' (15.89) (standard)	2'/m' (5.5.16)	S. Park, A. Hartl, D. Sheptyakov, M. Hoelzel, A. Arauzo, Symmetry (2021) 13 1688 DOI: 10.3390/sym13091688
765	0.765 Mn₅(PO₄)₂(PO₃(OH))₂(HOH)₄		0,0,0	C2/c (15) (standard)	(a,b,c;0,0,0)	C2'/c' (15.89) (standard)	2'/m' (5.5.16)	S. Park, A. Hartl, D. Sheptyakov, M. Hoelzel, A. Arauzo, Symmetry (2021) 13 1688 DOI: 10.3390/sym13091688
766	0.766 YbMnSb₂		0,0,0	P4/nmm (129) (a,b,c;1/4,-1/4,0)	(a,b,c;0,0,0)	P4'/n'm'm (129.416) (a,b,c;1/4,-1/4,0)	4'/m'm'm (15.5.57)	J.-R. Soh, S. M. Tobin, H. Su, I. Zivkovic, B. Ouladdiaf, A. Stunault, J. A. Rodriguez-Velamazan, K. Beauvois, Y. Guo, A. T. Boothroyd, PHYSICAL REVIEW B (2021) 104 L161103 DOI: 10.1103/PhysRevB.104.L161103
767	0.767 SrMnSb₂		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pn'ma' (62.448) (standard)	m'm'm (8.4.27)	J. Y. Liu, J. Hu, Q. Zhang, D. Graf, H. B. Cao, S. M. A. Radmanesh, D. J. Adams, Y. L. Zhu, G. F. Cheng, X. Liu, W. A. Phelan, J. Wei, M. Jaime, F. Balakirev, D. A. Tennant, J. F. DiTusa, I. Chiorescu, L. Spinu, Z. Q. Mao, NATURE MATERIALS (2017) 16 905 - 911 DOI: 10.1038/NMAT4953
768	0.768 SrMnSb₂		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pn'a'2₁ (33.148) (a,-c,b;0,0,0)	m'm'2 (7.4.23)	J. Y. Liu, J. Hu, Q. Zhang, D. Graf, H. B. Cao, S. M. A. Radmanesh, D. J. Adams, Y. L. Zhu, G. F. Cheng, X. Liu, W. A. Phelan, J. Wei, M. Jaime, F. Balakirev, D. A. Tennant, J. F. DiTusa, I. Chiorescu, L. Spinu, Z. Q. Mao, NATURE MATERIALS (2017) 16 905 - 911 DOI: 10.1038/NMAT4953
769	0.769 YbMnBi₂		0,0,0	P4/nmm (129) (a,b,c;1/4,-1/4,0)	(a,b,c;0,0,0)	P4'/n'm'm (129.416) (a,b,c;1/4,-1/4,0)	4'/m'm'm (15.5.57)	J. Y. Liu, J. Hu, D. Graf, T. Zou, M. Zhu, Y. Shi, S. Che, S. M. A. Radmanesh, C. N. Lau, L. Spinu, H. B. Cao, X. Ke, Z. Q. Mao, NATURE COMMUNICATIONS (2017) 8 646 DOI: 10.1038/s41467-017-00673-7
770	0.770 Fe₂Co₂Nb₂O₉		0,0,0	P-31c (165) (standard)	(2a+b,b,c;0,0,0)	C2/c' (15.88) (standard)	2/m' (5.4.15)	A. Maignan, C. Martin, E. Tailleur, F. Damay, M. Mostovoy, X. Wang, Z. Hu, H.-J. Lin, C.-T. Chen, L. H. Tjeng, E. Suard, F. Fauth, J. Mater. Chem. C (2021) 9 14236 - 14246 DOI: 10.1039/d1tc02950a
771	0.771 PrMnSi₂		0,0,0	Cmcm (63) (standard)	(a,b,c;0,0,0)	Cm'cm' (63.464) (standard)	m'm'm (8.4.27)	B. Malaman, G. Venturini, L. Pontonnier, D. Fruchart, Journal of Magnetism and Magnetic Materials (1990) 86 349 - 362 DOI: 10.1016/0304-8853(90)90143-E
772	0.772 PrMnSi₂		0,0,0	Cmcm (63) (standard)	(a,b,c;0,0,0)	Cm'cm' (63.464) (standard)	m'm'm (8.4.27)	B. Malaman, G. Venturini, L. Pontonnier, D. Fruchart, Journal of Magnetism and Magnetic Materials (1990) 86 349 - 362 DOI: 10.1016/0304-8853(90)90143-E
773	0.773 NdMnSi₂		0,0,0	Cmcm (63) (standard)	(a,b,c;0,0,0)	C2'/m' (12.62) (-b,a,c;0,0,0)	2'/m' (5.5.16)	B. Malaman, G. Venturini, L. Pontonnier, D. Fruchart, Journal of Magnetism and Magnetic Materials (1990) 86 349 - 362 DOI: 10.1016/0304-8853(90)90143-E
774	0.774 NdMnSi₂		0,0,0	Cmcm (63) (standard)	(a,b,c;0,0,0)	Cm'cm' (63.464) (standard)	m'm'm (8.4.27)	B. Malaman, G. Venturini, L. Pontonnier, D. Fruchart, Journal of Magnetism and Magnetic Materials (1990) 86 349 - 362 DOI: 10.1016/0304-8853(90)90143-E
775	0.775 NdMnSi₂		0,0,0	Cmcm (63) (standard)	(a,b,c;0,0,0)	Cm'cm' (63.464) (standard)	m'm'm (8.4.27)	B. Malaman, G. Venturini, L. Pontonnier, D. Fruchart, Journal of Magnetism and Magnetic Materials (1990) 86 349 - 362 DOI: 10.1016/0304-8853(90)90143-E
776	0.776 CeMnSi₂		0,0,0	Cmcm (63) (standard)	(a,b,c;0,0,0)	Cm'cm' (63.464) (standard)	m'm'm (8.4.27)	B. Malaman, G. Venturini, L. Pontonnier, D. Fruchart, Journal of Magnetism and Magnetic Materials (1990) 86 349 - 362 DOI: 10.1016/0304-8853(90)90143-E
777	0.777 CeMnSi₂		0,0,0	Cmcm (63) (standard)	(a,b,c;0,0,0)	Cm'cm' (63.464) (standard)	m'm'm (8.4.27)	B. Malaman, G. Venturini, L. Pontonnier, D. Fruchart, Journal of Magnetism and Magnetic Materials (1990) 86 349 - 362 DOI: 10.1016/0304-8853(90)90143-E
778	0.778 LaMnSi₂		0,0,0	Cmcm (63) (standard)	(a,b,c;0,0,0)	Cm'cm' (63.464) (standard)	m'm'm (8.4.27)	B. Malaman, G. Venturini, L. Pontonnier, D. Fruchart, Journal of Magnetism and Magnetic Materials (1990) 86 349 - 362 DOI: 10.1016/0304-8853(90)90143-E
779	0.779 LaMnSi₂		0,0,0	Cmcm (63) (standard)	(a,b,c;0,0,0)	Cm'cm' (63.464) (standard)	m'm'm (8.4.27)	B. Malaman, G. Venturini, L. Pontonnier, D. Fruchart, Journal of Magnetism and Magnetic Materials (1990) 86 349 - 362 DOI: 10.1016/0304-8853(90)90143-E
780	0.780 LaMnSi₂		0,0,0	Cmcm (63) (standard)	(a,b,c;0,0,0)	Cm'cm' (63.464) (standard)	m'm'm (8.4.27)	B. Malaman, G. Venturini, L. Pontonnier, D. Fruchart, Journal of Magnetism and Magnetic Materials (1990) 86 349 - 362 DOI: 10.1016/0304-8853(90)90143-E
781	0.781 CeMnSi₂		0,0,0	Cmcm (63) (standard)	(a,b,c;0,0,0)	Cm'cm' (63.464) (standard)	m'm'm (8.4.27)	P. Schobinger-Papamantellos, J.H.V.J. Brabers, F.R. de Boer, K.H.J. Buschow, Journal of Alloys and Compounds (1994) 203 23 - 28 DOI: 10.1016/0925-8388(94)90709-9
782	0.782 NdScO₃		0,0,0	Pbnm (62) (b,c,a;0,0,0)	(a,b,c;0,0,0)	Pnm'a (62.444) (b,c,a;0,0,0)	m'mm (8.3.26)	I. Plaza, E. Palacios, J. Bartolome, S. Rosenkranz, C. Ritter, A. Furrer, Physica B (1997) 234-236 635 - 636 DOI: 10.1016/S0921-4526(96)01067-8
783	0.783 NdInO₃		0,0,0	Pbnm (62) (b,c,a;0,0,0)	(a,b,c;0,0,0)	Pnm'a (62.444) (b,c,a;0,0,0)	m'mm (8.3.26)	I. Plaza, E. Palacios, J. Bartolome, S. Rosenkranz, C. Ritter, A. Furrer, Physica B (1997) 234-236 632 - 634 DOI: 10.1016/S0921-4526(96)01066-6
784	0.784 NdCoO₃		0,0,0	Pbnm (62) (b,c,a;0,0,0)	(a,b,c;0,0,0)	Pnma (62.441) (b,c,a;0,0,0)	mmm (8.1.24)	I. Plaza, E. Palacios, J. Bartolome, S. Rosenkranz, C. Ritter, A. Furrer, Physica B (1997) 234-236 632 - 634 DOI: 10.1016/S0921-4526(96)01066-6
785	0.785 NdVO₃		0,0,0	Pbnm (62) (b,c,a;0,0,0)	(a,b,c;0,0,0)	P2₁'/m' (11.54) (a,c,-b;0,0,0)	2'/m' (5.5.16)	M. Reehuis, C. Ulrich, P. Pattison, B. Ouladdiaf, M. C. Rheinstadter, M. Ohl, L. P. Regnault, M. Miyasaka, Y. Tokura, B. Keimer, PHYSICAL REVIEW B (2006) 73 094440 DOI: 10.1103/PhysRevB.73.094440
786	0.786 NdVO₃		0,0,0	Pbnm (62) (b,c,a;0,0,0)	(a,b,c;0,0,0)	P2₁'/m' (11.54) (a,c,-b;0,0,0)	2'/m' (5.5.16)	M. Reehuis, C. Ulrich, P. Pattison, B. Ouladdiaf, M. C. Rheinstadter, M. Ohl, L. P. Regnault, M. Miyasaka, Y. Tokura, B. Keimer, PHYSICAL REVIEW B (2006) 73 094440 DOI: 10.1103/PhysRevB.73.094440
787	0.787 YVO₃		0,0,0	Pbnm (62) (b,c,a;0,0,0)	(a,b,c;0,0,0)	Pn'm'a (62.446) (b,c,a;0,0,0)	m'm'm (8.4.27)	M. Reehuis, C. Ulrich, P. Pattison, B. Ouladdiaf, M. C. Rheinstadter, M. Ohl, L. P. Regnault, M. Miyasaka, Y. Tokura, B. Keimer, PHYSICAL REVIEW B (2006) 73 094440 DOI: 10.1103/PhysRevB.73.094440
788	0.788 YVO₃		0,0,0	P2₁/b11 (14) (c,a,b;0,0,0)	(a,b,c;0,0,0)	P-1 (2.4) (standard)	-1 (2.1.3)	M. Reehuis, C. Ulrich, P. Pattison, B. Ouladdiaf, M. C. Rheinstadter, M. Ohl, L. P. Regnault, M. Miyasaka, Y. Tokura, B. Keimer, PHYSICAL REVIEW B (2006) 73 094440 DOI: 10.1103/PhysRevB.73.094440
789	0.789 CeCuSi		0,0,0	P6₃/mmc (194) (standard)	(a,b,c;0,0,0)	Cmc'm' (63.463) (a,a+2b,c;0,0,0)	m'm'm (8.4.27)	D. Gignoux, D. Schmitt, M. Zerguine, Solid State Communications (1986) 58 559 - 562 DOI: 10.1016/0038-1098(86)90796-9
790	0.790 Sr₂DyRuO₆		0,0,0	P2₁/n (14) (a,b,-a+c;0,0,0)	(a,b,c;0,0,0)	P2₁'/c' (14.79) (a,b,-a+c;0,0,0)	2'/m' (5.5.16)	D. T. Adroja, S. Sharma, C. RitteR, A. D. Hillier, D. Le, C. V. Tomy, R. Singh, R. I. Smith, M. Koza, A. Sundaresan, S. Langridge, PHYSICAL REVIEW B (2020) 101 094413 DOI: 10.1103/PhysRevB.101.094413
791	0.791 Sr₂TbRuO₆		0,0,0	P2₁/n (14) (a,b,-a+c;0,0,0)	(a,b,c;0,0,0)	P2₁/c (14.75) (a,b,-a+c;0,0,0)	2/m (5.1.12)	Y. Doi, Y. Hinatsu, K. Oikawa, Y. Shimojob, Y. Morii, J. Mater. Chem (2000) 10 1731 - 1735 DOI: 10.1039/b000689k
792	0.792 Sr₂HoRuO₆		0,0,0	P2₁/n (14) (a,b,-a+c;0,0,0)	(a,b,c;0,0,0)	P2₁/c (14.75) (a,b,-a+c;0,0,0)	2/m (5.1.12)	Y. Doi, Y. Hinatsu, K. Oikawa, Y. Shimojob, Y. Morii, J. Mater. Chem. (2000) 10 797 - 800 DOI: 10.1039/A909096G
793	0.793 Sr₂HoRuO₆		0,0,0	P2₁/n (14) (a,b,-a+c;0,0,0)	(a,b,c;0,0,0)	P2₁/c (14.75) (a,b,-a+c;0,0,0)	2/m (5.1.12)	Y. Doi, Y. Hinatsu, K. Oikawa, Y. Shimojob, Y. Morii, J. Mater. Chem. (2000) 10 797 - 800 DOI: 10.1039/A909096G
794	0.794 Sr₂HoRuO₆		0,0,0	P2₁/n (14) (a,b,-a+c;0,0,0)	(a,b,c;0,0,0)	P2₁/c (14.75) (a,b,-a+c;0,0,0)	2/m (5.1.12)	N. G. Parkinson, P. D Hatton, J. A. K. Howard, C. Ritter, R. M. Ibberson, M. K. Wu, J. Phys.: Condens. Matter (2004) 16 7611 - 7624 DOI: 10.1088/0953-8984/16/43/005
795	0.795 Sr₂YRuO₆		0,0,0	'P (14) (a,b,-a+c;0,0,0)	(a,b,c;0,0,0)	P2₁/c (14.75) (a,b,-a+c;0,0,0)	2/m (5.1.12)	P. Kaysera, B. Ranjbara, B. J. Kennedy, M. Avdeev, Journal of Solid State Chemistry (2017) 249 154 - 159 DOI: 10.1016/j.jssc.2017.03.001
796	0.796 Ca₂NiOsO₆		0,0,0	P2₁/n (14) (a,b,-a+c;0,0,0)	(a,b,c;0,0,0)	P2₁'/c' (14.79) (a,b,-a+c;0,0,0)	2'/m' (5.5.16)	R. Morrow, K. Samanta, T. S. Dasgupta, J. Xiong, J. W. Freeland, D. Haskel, P. M. Woodward, Chem. Mater. (2021) 28 3666 - 3675 DOI: 10.1021/acs.chemmater.6b00254
797	0.797 SmBaMn₂O₅		0,0,0	P4/nmm (129) (standard)	(a,b,c;0,0,0)	P4/nm'm' (129.417) (standard)	4/mm'm' (15.6.58)	J. Blasco, J. A. Rodriguez-Velamazan, G. Subias, M. C. Sanchez, J. L. Garcia-Munoz, Materials Research Bulletin (2022) 150 111780 DOI: 10.1016/j.materresbull.2022.111780
798	0.798 MnPd₂		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pnma' (62.445) (standard)	m'mm (8.3.26)	G. Kadar, E. Kren, M. Marton, J. Phys. Chem. Solids (1972) 33 212 - 215 DOI: 10.1016/S0022-3697(72)80069-6
799	0.799 Sr₂Co₂O₅		1,1,1	Ima2 (46) (standard)	(a,b,c;0,0,0)	P_Inc2 (30.122) (standard)	mm21' (7.2.21)	A. Munoz, C. de la Calle, J. A. Alonso, P. M. Botta, V. Pardo, D. Baldomir, J. Rivas, PHYSICAL REVIEW B (2008) 78 054404 DOI: 10.1103/PhysRevB.78.054404
800	0.800 MnTe		0,0,0	P6₃/mmc (194) (standard)	(a,b,c;0,0,0)	Cmcm (63.457) (a+b,-a+b,c;0,0,0)	mmm (8.1.24)	N. Kunitomi, Y. Hamaguchi, S. Anzai, Journal de Physique (1964) 25 568 - 574 DOI: 10.1051/jphys:01964002505056800
801	0.801 Tl₃Fe₂S₄		0,0,0	Pnma (62) (standard)	(a,-c,b;0,0,1/2)	Pnma' (62.445) (a,c,-b;0,0,0)	m'mm (8.3.26)	D. Welz, P. Deppe, W. Schaefer, H. Sabrowsky, M. Rosenberg, J. Phys. Chem. Solids (1989) 50 297 - 308 DOI: 10.1016/0022-3697(89)90492-7
802	0.802 CuFeS₂		0,0,0	I-42d (122) (standard)	(a,b,c;0,0,0)	I-42d (122.333) (standard)	-42m (14.1.48)	G. Donnay, L. M. Corliss, J. D. H. Donnay, N. Elliott, J. M. Hastings, Phys. Rev. (1958) 112 1917 - 1923 DOI: 10.1103/PhysRev.112.1917
803	0.803 NbMnP		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pm'n2₁' (31.125) (-b,a,c;1/4,1/4,0)	m'm2' (7.3.22)	M. Matsuda, Depei Zhang, Y. Kuwata, Q. Zhang, T. Sakurai, H. Ohta, H. Sugawara, K. Takeda, J. Hayashi, H. Kotegawa, PHYSICAL REVIEW B (2021) 104 174413 DOI: 10.1103/PhysRevB.104.174413
804	0.804 MoP₃SiO₁₁		0,0,0	R-3c (167) (standard)	(a,b,c;0,0,0)	C2/c' (15.88) (1/3a+2/3b+2/3c,-a,-1/3a-2/3b+1/3c;0,1/2,0)	2/m' (5.4.15)	D. I. Badrtdinov, L. Ding, C. Ritter, J. Hembacher, N. Ahmed, Y. Skourski, A. A. Tsirlin, PHYSICAL REVIEW B (2021) 104 094428 DOI: 10.1103/PhysRevB.104.094428
805	0.805 DyBaCuO₅		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	62.444 (P n m') (standard)	()	P. Yanda, F. Orlandi, P. Manuel, N. Boudjada, J. Rodriguez-Carvajal, A. Sundaresan, PHYSICAL REVIEW B (2021) 104 144401 DOI: 10.1103/PhysRevB.104.144401
806	0.806 Fe₂Se₂O₇		0,0,0	Pccn (56) (standard)	(a,b,c;0,0,0)	Pc'cn (56.367) (standard)	m'mm (8.3.26)	K. Nawa, M. Avdeev, P. Berdonosov, A. Sobolev, I. Presniakov, A. Aslandukova, E. Kozlyakova, A. Vasiliev, I. Shchetinin, T.J. Sato, Sci. Rep. (2021) 11 24049 DOI: 10.1038/s41598-021-03058-5
807	0.807 Fe₂Se₂O₇		0,0,0	Pccn (56) (standard)	(a,b,c;0,0,0)	Pc'cn (56.367) (standard)	m'mm (8.3.26)	K. Nawa, M. Avdeev, P. Berdonosov, A. Sobolev, I. Presniakov, A. Aslandukova, E. Kozlyakova, A. Vasiliev, I. Shchetinin, T.J. Sato, Sci. Rep. (2021) 11 24049 DOI: 10.1038/s41598-021-03058-5
808	0.808 Fe₂Se₂O₇		0,0,0	Pccn (56) (standard)	(a,b,c;0,0,0)	Pc'cn (56.367) (standard)	m'mm (8.3.26)	K. Nawa, M. Avdeev, P. Berdonosov, A. Sobolev, I. Presniakov, A. Aslandukova, E. Kozlyakova, A. Vasiliev, I. Shchetinin, T.J. Sato, Sci. Rep. (2021) 11 24049 DOI: 10.1038/s41598-021-03058-5
809	0.809 Fe₂WO₆		0,0,0	P2₁/c (14) (standard)	(a,b,c;0,0,0)	P2₁/c' (14.78) (standard)	2/m' (5.4.15)	S. Caubergh, N. Matsubara, F. Damay, A. Maignan, F. Fauth, P. Manuel, D. Khalyavin, B. Vertruyen, C. Martin, Inorg. Chem. (2020) 59 9798 - 9806 DOI: 10.1021/acs.inorgchem.0c01024
810	0.810 Fe₂WO₆		0,0,0	Pbcn (60) (standard)	(a,b,c;0,0,0)	Pbc'n' (60.423) (standard)	m'm'm (8.4.27)	H. Pinto, M. Melamud, H. Shaked, Acta Cryst. A (1977) 33 663 - 667 DOI: 10.1107/s0567739477001648
811	0.811 Fe₂WO₆		0,0,0	Pbcn (60) (standard)	(a,b,c;0,0,0)	Pbc'n' (60.423) (standard)	m'm'm (8.4.27)	H. Pinto, M. Melamud, H. Shaked, Acta (1977) 33 663 - 667 DOI: 10.1107/s0567739477001648
812	0.812 Fe₂WO₆		0,0,0	Pbcn (60) (standard)	(a,b,c;0,0,0)	Pn'c2' (30.113) (c,a,b;0,0,1/4)	m'm2' (7.3.22)	H. Weitzel, Acta Cryst. A (1976) 32 592 - 597 DOI: 10.1107/S0567739476001265
813	0.813 Fe₂WO₆		0,0,0	Pbcn (60) (standard)	(a,b,c;0,0,0)	Pbc'n' (60.423) (standard)	m'm'm (8.4.27)	M. Sretenovic, S. Okamoto, G. Peiker, T. X. Tang, H. Zhang, C. Q. Xu, T. W. Heitmann, Q. Zhang, C. R. dela Cruz, X. Ke, PHYSICAL REVIEW B (2021) 104 134413 DOI: 10.1103/PhysRevB.104.134413
814	0.814 Fe₂WO₆		0,0,0	Pbcn (60) (standard)	(a,b,c;0,0,0)	Pb'cn (60.419) (standard)	m'mm (8.3.26)	M. Sretenovic, S. Okamoto, G. Peiker, T. X. Tang, H. Zhang, C. Q. Xu, T. W. Heitmann, Q. Zhang, C. R. dela Cruz, X. Ke, PHYSICAL REVIEW B (2021) 104 134413 DOI: 10.1103/PhysRevB.104.134413
815	0.815 MnNb₂O₆		0,0,0	Pbcn (60) (standard)	(a,b,c;0,0,0)	Pb'cn (60.419) (standard)	m'mm (8.3.26)	H. Weitzel, ZAAC (1971) 380 119 - 127 DOI: 10.1002/zaac.19713800202
816	0.816 MnTa₂O₆		0,0,0	Pbcn (60) (standard)	(a,b,c;0,0,0)	Pb'cn (60.419) (standard)	m'mm (8.3.26)	H. Weitzel, S. Klein, Solid State Communications (1973) 12 113 - 116 DOI: 10.1016/0038-1098(73)90517-6
817	0.817 Mn(Nb_0.5Ta_0.5)₂O₆		0,0,0	Pbcn (60) (standard)	(a,b,c;0,0,0)	Pb'cn (60.419) (standard)	m'mm (8.3.26)	S. Klein, H. Weitzel, Acta Cryst. A (1976) 32 587 - 591 DOI: 10.1107/S0567739476001253
818	0.818 MnTa₂O₆		0,0,0	Pbcn (60) (standard)	(a,b,c;0,0,0)	Pb'cn (60.419) (standard)	m'mm (8.3.26)	S. Klein, H. Weitzel, Acta Cryst. A (1976) 32 587 - 591 DOI: 10.1107/S0567739476001253
819	0.819 MnNb₂O₆		0,0,0	Pbcn (60) (standard)	(a,b,c;0,0,0)	Pb'cn (60.419) (standard)	m'mm (8.3.26)	S. Klein, H. Weitzel, Acta Cryst. A (1976) 32 587 - 591 DOI: 10.1107/S0567739476001253
820	0.820 Bi_0.85Ca_0.15Fe_0.55Mn_0.45O₃		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pn'm'a (62.446) (standard)	m'm'm (8.4.27)	V. A. Khomchenko, M. Dasa, J. A. Paixao, M. V. Silibin, D. V. Karpinsky, Journal of Alloys and Compounds (2022) 901 163682 DOI: 10.1016/j.jallcom.2022.163682
821	0.821 SrGd₂O₄		0,0,0	Pnma (62) (a,-c,b;0,0,0)	(a,b,c;0,0,0)	Pnma' (62.445) (a,-c,b;0,0,0)	m'mm (8.3.26)	N. Qureshi, B. Z. Malkin, S. X. M. Riberolles, C. Ritter, B. Ouladdiaf, G. Balakrishnan, M. Ciomaga Hatnean, O. A. Petrenko, PHYSICAL REVIEW B (2022) 105 014425 DOI: 10.1103/PhysRevB.105.014425
822	0.822 Nd₂ScNbO₇		0,0,0	Fd-3m (227) (standard)	(a,b,c;0,0,0)	Fd-3m' (227.131) (standard)	m-3m' (32.4.121)	A. Scheie, M. Sanders, X. Gui, Y. Qiu, T. R. Prisk, R. J. Cava, C. Broholm, PHYSICAL REVIEW B (2021) 104 134418 DOI: 10.1103/PhysRevB.104.134418
823	0.823 Sr₂MnGaO₅		0,0,0	Ima2 (46) (standard)	(a,b,c;0,0,0)	Im'a2' (46.243) (standard)	m'm2' (7.3.22)	V. Yu. Pomjakushin, A. M. Balagurov, T. V. Elzhov, D. V. Sheptyakov, P. Fischer, D. I. Khomskii, V. Yu. Yushankhai, A. M. Abakumov, M. G. Rozova, E. V. Antipov, M. V. Lobanov, S. J. L. Billinge, PHYSICAL REVIEW B (2002) 66 184412 DOI: 10.1103/PhysRevB.66.184412
824	0.824 Sr₂MnGaO_5.5		1/2,1/2,0	P4/mmm (123) (standard)	(a+b,-a+b,c;0,0,0)	P_C4/mbm (127.397) (standard)	4/mmm1' (15.2.54)	V. Yu. Pomjakushin, A. M. Balagurov, T. V. Elzhov, D. V. Sheptyakov, P. Fischer, D. I. Khomskii, V. Yu. Yushankhai, A. M. Abakumov, M. G. Rozova, E. V. Antipov, M. V. Lobanov, S. J. L. Billinge, PHYSICAL REVIEW B (2002) 66 184412 DOI: 10.1103/PhysRevB.66.184412
825	0.825 Ca₂MnGaO₅		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pnm'a' (62.447) (standard)	m'm'm (8.4.27)	V. Yu. Pomjakushin, A. M. Balagurov, T. V. Elzhov, D. V. Sheptyakov, P. Fischer, D. I. Khomskii, V. Yu. Yushankhai, A. M. Abakumov, M. G. Rozova, E. V. Antipov, M. V. Lobanov, S. J. L. Billinge, PHYSICAL REVIEW B (2002) 66 184412 DOI: 10.1103/PhysRevB.66.184412
826	0.826 MnTeLi_0.003		0,0,0	P6₃/mmc (194) (standard)	(a,b,c;0,0,0)	C2'/m' (12.62) (a-b,a+b,c;0,0,0)	2'/m' (5.5.16)	D. H. Moseley, K. M. Taddei, J. Yan, M. A. McGuire, S. Calder, M. M. H. Polash, D. Vashaee, X. Zhang, H. Zhao, D. S. Parker, R. S. Fishman, R. P. Hermann, PHYSICAL REVIEW MATERIALS (2022) 6 014404 DOI: 10.1103/PhysRevMaterials.6.014404
827	0.827 Na₂MnPO₄F		0,0,0	P2₁/c (14) (a,b,-a+c;0,0,0)	(a,b,c;0,0,0)	P2₁/c' (14.78) (a,b,-a+c;0,0,0)	2/m' (5.4.15)	S. Lochab, S. Rayaprol, M. Avdeev, L. Sharma, P. Barpanda, Journal of Solid State Chemistry (2022) 308 122926 DOI: 10.1016/j.jssc.2022.122926
828	0.828 Na₂MnPO₄F		0,0,0	P2₁/n (14) (a,b,-a+c;0,0,0)	(a,b,c;0,0,0)	P2₁/c' (14.78) (a,b,-a+c;0,0,0)	2/m' (5.4.15)	S. Lochab, S. Rayaprol, M. Avdeev, L. Sharma, P. Barpanda, Journal of Solid State Chemistry (2022) 308 122926 DOI: 10.1016/j.jssc.2022.122926
829	0.829 Na₂MnPO₄F		0,0,0	P2₁/n (14) (a,b,-a+c;0,0,0)	(a,b,c;0,0,0)	P2₁/c' (14.78) (a,b,-a+c;0,0,0)	2/m' (5.4.15)	S. Lochab, S. Rayaprol, M. Avdeev, L. Sharma, P. Barpanda, Journal of Solid State Chemistry (2022) 308 122926 DOI: 10.1016/j.jssc.2022.122926
830	0.830 Na₂MnPO₄F		0,0,0	P2₁/n (14) (a,b,-a+c;0,0,0)	(a,b,c;0,0,0)	P2₁/c' (14.78) (a,b,-a+c;0,0,0)	2/m' (5.4.15)	S. Lochab, S. Rayaprol, M. Avdeev, L. Sharma, P. Barpanda, Journal of Solid State Chemistry (2022) 308 122926 DOI: 10.1016/j.jssc.2022.122926
831	0.831 BaCaFe₄O₇		0,0,0	Pbn2₁ (33) (-b,a,c;0,0,0)	(a,b,c;0,0,0)	Pn'a'2₁ (33.148) (-b,a,c;0,0,0)	m'm'2 (7.4.23)	N. Qureshi, B. Ouladdiaf, A. Senyshyn, V. Caignaert, M. B. Valldor, SciPost Phys. Core (2022) 5 007 DOI: 10.21468/SciPostPhysCore.5.1.007
832	0.832 CeAuGe		0,0,0	P6₃mc (186) (standard)	(-b,2a+b,c;0,0,0)	Cmc'2₁' (36.175) (standard)	m'm2' (7.3.22)	S. Shin, V. Pomjakushin, M. Bartkowiak, M. Medarde, T. Shang, D.J. Gawryluk, E. Pomjakushina, J. Magn. Magn. Mater. (2022) 551 169147 DOI: 10.1016/j.jmmm.2022.169147
833	0.833 CeCuGe		0,0,0	P63/mmc (194) (standard)	(a,c,-b;0,0,0)	Cmc'm' (63.463) (c,2a+c,b;0,0,0)	m'm'm (8.4.27)	S. Shin, V. Pomjakushin, M. Bartkowiak, M. Medarde, T. Shang, D.J. Gawryluk, E. Pomjakushina, J. Magn. Magn. Mater. (2022) 551 169147 DOI: 10.1016/j.jmmm.2022.169147
834	0.834 CrSbSe₃		0,0,0	Pnma (62) (standard)	(a,b,c;0,0,0)	Pnm'a' (62.447) (standard)	m'm'm (8.4.27)	Y. Qu, M. Q. Arguilla, Q. Zhang, X. He, M. Dinca, J. Am. Chem. Soc. (2021) 143 19551 - 19558 DOI: 10.1021/jacs.1c09607
835	0.835 Dy₅Pd₂In₄		0,0,0	Pbam (55) (standard)	(a,b,c;0,0,0)	Pb'a'm (55.357) (standard)	m'm'm (8.4.27)	S. Baran, A. Deptuch, M. Reehuis, Yu. Tyvanchuk, F. Yokaichiya, A. Szytula, J. Alloys Compd. (2021) 877 160171 DOI: 10.1016/j.jallcom.2021.160171
836	0.836 DyFeO₃		0,0,0	Pbnm (62) (b,c,a;0,0,0)	(a,b,c;0,0,0)	Pn'ma' (62.448) (b,c,a;0,0,0)	m'm'm (8.4.27)	C. Ritter, R. Vilarinho, J. A. Moreira, M. Mihalik, M. Mihalik, S. Savvin, J. Phys.: Condens. Matter (2022) 34 265801 DOI: 10.1088/1361-648X/ac6787
837	0.837 DyFeO₃		0,0,0	Pbnm (62) (b,c,a;0,0,0)	(a,b,c;0,0,0)	Pn'ma' (62.448) (b,c,a;0,0,0)	m'm'm (8.4.27)	C. Ritter, R. Vilarinho, J. A. Moreira, M. Mihalik, M. Mihalik, S. Savvin, J. Phys.: Condens. Matter (2022) 34 265801 DOI: 10.1088/1361-648X/ac6787
838	0.838 DyFeO₃		0,0,0	Pbnm (62) (b,c,a;0,0,0)	(a,b,c;0,0,0)	Pn'ma' (62.448) (b,c,a;0,0,0)	m'm'm (8.4.27)	C. Ritter, R. Vilarinho, J. A. Moreira, M. Mihalik, M. Mihalik, S. Savvin, J. Phys.: Condens. Matter (2022) 34 265801 DOI: 10.1088/1361-648X/ac6787
839	0.839 DyFeO₃		0,0,0	Pbnm (62) (b,c,a;0,0,0)	(a,b,c;0,0,0)	Pn'ma' (62.448) (b,c,a;0,0,0)	m'm'm (8.4.27)	C. Ritter, R. Vilarinho, J. A. Moreira, M. Mihalik, M. Mihalik, S. Savvin, J. Phys.: Condens. Matter (2022) 34 265801 DOI: 10.1088/1361-648X/ac6787
840	0.840 DyFeO₃		0,0,0	Pbnm (62) (b,c,a;0,0,0)	(a,b,c;0,0,0)	Pnma (62.441) (b,c,a;0,0,0)	mmm (8.1.24)	C. Ritter, R. Vilarinho, J. A. Moreira, M. Mihalik, M. Mihalik, S. Savvin, J. Phys.: Condens. Matter (2022) 34 265801 DOI: 10.1088/1361-648X/ac6787
841	0.841 DyFeO₃