MAGNDATA arrow Collection of Magnetic Structures


MAGNDATA: Advanced search & Statistics

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Crystal system
Magnetic (super)space group

Parent space group
Standard setting
Magnetic (super)space group

Parent space group
Class (propagation vector type)
Class 0
Class 1.0
Class 1
Class 2
Class 3
Class 1.1 (incomm)
Temperatures
Minimum transition temperature

Minimum experiment temperature
Properties
(magnetic super(space) group)
k-maximal?

Centrosymmetric?
Properties
(magnetic point group)
Polar?

Ferromagnetic?
Properties
(magnetic phase)
Possibly multiferroic type I?

Possibly multiferroic type II?
Properties
(Phase transition)
Number of wave vectors?

Same point group than parent?
Nonzero tensorsIrreducible 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)

NEntryStructurePropagation
vector(s)
Parent
space group
Transformation
from parent
Magnetic
(super)space group
Magnetic
point group
Reference
10.1
LaMnO3
0,0,0Pnma (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
20.2
Cd2Os2O7
0,0,0Fd-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
30.3
Ca3LiOsO6
0,0,0R-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
40.4
NiCr2O4
0,0,0I41/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
50.5
Cr2S3
0,0,0R-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
60.6
YMnO3
0,0,0P63cm (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
70.7
ScMnO3
0,0,0P63cm (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
80.8
ScMnO3
0,0,0P63cm (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
90.9
GdB4
0,0,0P4/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
100.10
DyFeO3
0,0,0Pnma (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
110.11
DyFeO3
0,0,0Pnma (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
120.12
U3Ru4Al12
0,0,0P63/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
130.13
Ca3Co2-xMnxO6
0,0,0R-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
140.14
Gd5Ge4
0,0,0Pnma (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
150.15
MnF2
0,0,0P42/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
160.16
EuTiO3
0,0,0I4/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
170.17
FePO4
0,0,0Pnma (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
180.18
BaMn2As2
0,0,0I4/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
190.19
MnTiO3
0,0,0R-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
200.20
MnTe2
0,0,0Pa-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
210.21
PbNiO3
0,0,0R3c (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
220.22
DyB4
0,0,0P4/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
230.23
Ca3Mn2O7
0,0,0Cmc21 (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
240.24
LiMnPO4
0,0,0Pnma (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
250.25
NaOsO3
0,0,0Pnma (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
260.26
TmAgGe
0,0,0P-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
270.27
YFe4Ge2
0,0,0Pnnm (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
280.28
LiFeSi2O6
0,0,0P21/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
290.29
Er2Ti2O7
0,0,0Fd-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
300.30
YbMnO3
0,0,0P63cm (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
310.31
HoMnO3
0,0,0P63cm (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
320.32
HoMnO3
0,0,0P63cm (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
330.33
HoMnO3
0,0,0P63cm (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
340.34
La0.5Sr0.5FeO2.5F0.5
0,0,0Pnma (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
350.35
Cu2OSeO3
0,0,0P213 (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
360.36
NiF2
0,0,0P42/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
370.37
U3Al2Si3
0,0,0I4 (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
380.38
GaFeO3
0,0,0Pna21 (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
390.39
Nd2NaRuO6
0,0,0P21/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
400.40
Mn2O3-alpha
0,0,0Pbca (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
410.41
Mn2O3-alpha
0,0,0Pbca (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
420.42
HoMnO3
0,0,0P63cm (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
430.43
HoMnO3
0,0,0P63cm (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
440.44
YMnO3
0,0,0P63cm (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
450.45
La2NiO4
0,0,0P42/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
460.46
CaBaCo4O7
0,0,0Pbn21 (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
470.47
Gd2Sn2O7
0,0,0Fd-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
480.48
Tb2Sn2O7
0,0,0Fd-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
490.49
Ho2Ru2O7
0,0,0Fd-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
500.50
MnTiO3
0,0,0R3c (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
510.51
Ho2Ru2O7
0,0,0Fd-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
520.52
KyFe2-xSe2
0,0,0I4/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
530.53
RbyFe2-xSe2
0,0,0I4/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
540.54
RbyFe2-xSe2
0,0,0I4/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
550.55
KyFe2-xSe2
0,0,0I4/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
560.56
Ba2CoGe2O7
0,0,0P-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
570.57
ScFeO3
0,0,0R3c (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
580.58
CoAl2O4
0,0,0Fd-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
590.59
Cr2O3
0,0,0R-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
600.60
[NH2(CH3)2]n[FeIIIFeII(HCOO)6]n
0,0,0R-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
610.61
Li2FeP2O7
0,0,0P21/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
620.62
SrMn2V2O8
0,0,0I41cd (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
630.63
Ho2CrSbO7
0,0,0Fd-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
640.64
MnV2O4
0,0,0I41/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
650.65
Fe2O3-alpha
0,0,0R-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
660.66
Fe2O3-alpha
0,0,0R-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
670.67
BiFe0.5Sc0.5O3
0,0,0Ima2 (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
680.68
BiFe0.5Sc0.5O3
0,0,0Pnma (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
690.69
Co4(OH)2(C10H16O4)3
0,0,0P21/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
700.70
Na3Co(CO3)2Cl
0,0,0Fd-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
710.71
Li2Ni(SO4)2
0,0,0Pbca (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
720.72
CaMnBi2
0,0,0P4/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
730.73
SrMnBi2
0,0,0I4/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
740.74
Mn3Cu0.5Ge0.5N
0,0,0Pm-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
750.75
Cr2WO6
0,0,0P42/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
760.76
Cr2TeO6
0,0,0P42/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
770.77
Tb2Ti2O7
0,0,0Fd-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
780.78
NiN2O6
0,0,0R-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
790.79
CaIrO3
0,0,0Cmcm (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
800.80
U2Pd2In
0,0,0P4/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
810.81
U2Pd2Sn
0,0,0P4/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
820.82
Gd2CuO4
0,0,0Aeam (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
830.83
LiFeP2O7
0,0,0P21 (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
840.84
Mn2FeMoO6
0,0,0R3 (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
850.85
KCo4(PO4)3
0,0,0Pnnm (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
860.86
KMn4(PO4)3
0,0,0Pnam (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
870.87
NaFePO4
0,0,0Pnma (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
880.88
LiNiPO4
0,0,0Pnma (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
890.89
BaMn2Bi2
0,0,0I4/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
900.90
Rb2Fe2O(AsO4)2
0,0,0Pnma (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
910.91
Rb2Fe2O(AsO4)2
0,0,0Pnma (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
920.92
CaMn2Sb2
0,0,0P-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
930.93
Ca2Fe2O5
0,0,0Pcmn (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
940.94
TeNiO3
0,0,0Pnma (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
950.95
LiFePO4
0,0,0Pnma (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
960.96
CoSO4
0,0,0Pnma (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
970.97
FeSb2O4
0,0,0P42/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
980.98
YBaMn2O5.5
0,0,0Icam (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
990.99
YBaMn2O5.5
0,0,0Icam (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
1000.100
YCr0.5Mn0.5O3
0,0,0Pnma (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
1010.101
Mn2GeO4
0,0,0Pnma (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
1020.102
Mn2GeO4
0,0,0Pnma (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
1030.103
Mn2GeO4
0,0,0Pnma (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
1040.104
ErVO3
0,0,0Pbnm (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
1050.105
ErVO3
0,0,0Pbnm (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
1060.106
DyVO3
0,0,0Pbnm (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
1070.107
Ho2Ge2O7
0,0,0P41212 (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
1080.108
Mn3Ir
0,0,0Pm-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
1090.109
Mn3Pt
0,0,0Pm-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
1100.110
Cr2O3
0,0,0R-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
1110.111
Co4Nb2O9
0,0,0P-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
1120.112
FeBO3
0,0,0R-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
1130.113
NiCO3
0,0,0R-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
1140.114
CoCO3
0,0,0R-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
1150.115
MnCO3
0,0,0R-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
1160.116
FeCO3
0,0,0R-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: ?
1170.117
LuFeO3
0,0,0P63cm (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
1180.118
Ba5Co5ClO13
0,0,0P63/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
1190.119
CoSe2O5
0,0,0Pbcn (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
1200.120
LiFe(SO4)2
0,0,0P21/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
1210.121
Li2Co(SO4)2
0,0,0P21/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
1220.122
Li2Mn(SO4)2
0,0,0P21/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
1230.123
Mn3NiN
0,0,0Pm-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
1240.124
Mn3NiN
0,0,0Pm-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
1250.125
MnGeO3
0,0,0R-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
1260.126
NpCo2
0,0,0Fd-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
1270.127
Dy3Al5O12
0,0,0Ia-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
1280.128
FeSO4F
0,0,0C2/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
1290.129
Cu3Mo2O9
0,0,0Pnma (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
1300.130
Cu3Mo2O9
0,0,0Pnma (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
1310.131
Mn(N(CN2))2
0,0,0Pnnm (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
1320.132
Fe(N(CN2))2
0,0,0Pnnm (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
1330.133
Ni3B7O13Cl
0,0,0Pca21 (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
1340.134
Mn3B7O13I
0,0,0Pca21 (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
1350.135
Ni3B7O13Br
0,0,0Pca21 (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
1360.136
Co3B7O13Br
0,0,0Pca21 (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
1370.137
Cu2V2O7
0,0,0Fdd2 (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
1380.138
BiCrO3
0,0,0C2/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
1390.139
BiCrO3
0,0,0C2/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
1400.140
LuFe4Ge2
0,0,0P42/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
1410.141
Tb5Ge4
0,0,0Pnma (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
1420.142
Fe2TeO6
0,0,0P42/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
1430.143
Cr2TeO6
0,0,0P42/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
1440.144
Cr2WO6
0,0,0P42/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
1450.145
Co3TeO6
0,0,0C2/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
1460.146
EuZrO3
0,0,0Pnma (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
1470.147
EuZrO3
0,0,0Pnma (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
1480.148
La2LiRuO6
0,0,0P21/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
1490.149
Nd3Ru4Al12
0,0,0P63/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
1500.150
NiS2
0,0,0Pa-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
1510.151
Tm2Mn2O7
0,0,0Fd-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
1520.152
LiFePO4
0,0,0Pnma (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
1530.153
Bi2RuMnO7
0,0,0Fd-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
1540.154
Er2Ru2O7
0,0,0Fd-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
1550.155
CaMnGe2O6
0,0,0C2/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
1560.156
CaMnGe2O6
0,0,0C2/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
1570.157
Yb2Sn2O7
0,0,0Fd-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
1580.158
Yb2Ti2O7
0,0,0Fd-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
1590.159
DyCoO3
0,0,0Pbnm (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
1600.160
TbCoO3
0,0,0Pbnm (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
1610.161
CoSe2O5
0,0,0Pbcn (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
1620.162
NdCrTiO5
0,0,0Pbam (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
1630.163
MnPS3
0,0,0C2/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
1640.164
Y2MnCoO6
0,0,0P21/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
1650.165
SrMn(VO4)(OH)
0,0,0P212121 (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
1660.166
Ce2PdGe3
0,0,0P42/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
1670.167
Nd3Sb3Mg2O14
0,0,0R-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
1680.168
NH4Fe2F6
0,0,0Pnma (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
1690.169
U3As4
0,0,0I-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
1700.170
U3P4
0,0,0I-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
1710.171
DyScO3
0,0,0Pnma (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
1720.172
Y3Co3.25Al0.75
0,0,0Cmcm (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
1730.173
Pr3Ru4Al12
0,0,0P63/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
1740.174
Pr3Ru4Al12
0,0,0P63/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
1750.175
Ca2CoSi2O7
0,0,0P-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
1760.176
Mn3Ti2Te6
0,0,0P-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
1770.177
Mn3GaN
0,0,0Pm-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
1780.178
CoF2
0,0,0P42/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
1790.179
FeCl5D2O(ND4)2
0,0,0P21/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
1800.180
MnPSe3
0,0,0R-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
1810.181
Nd15Ge9C0.39
0,0,0P63mc (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
1820.182
KCrF4
0,0,0Pnma (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
1830.183
KMnFeF6
0,0,0P42bc (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
1840.184
Nd5Si4
0,0,0P41212 (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
1850.185
Nd5Ge4
0,0,0Pnma (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
1860.186
CeMnAsO
0,0,0P4/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
1870.187
CeMnAsO
0,0,0P4/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
1880.188
CeMnAsO
0,0,0P4/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
1890.189
CeMn2Ge4O12
0,0,0P4/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
1900.190
CeMnCoGe4O12
0,0,0P4/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
1910.191
BaCuF4
0,0,0Cmc21 (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
1920.192
RbFe2F6
0,0,0Pnma (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
1930.193
LiCoPO4
0,0,0Pnma (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
1940.194
UPt2Si2
0,0,0P4/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
1950.195
Sr2Ir0.92Sn0.08O4
0,0,0I41/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
1960.196
Co4Nb2O9
0,0,0P-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
1970.197
Co4Nb2O9
0,0,0P-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
1980.198
GdVO4
0,0,0I41/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
1990.199
Mn3Sn
0,0,0P63/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
2000.200
Mn3Sn
0,0,0P63/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
2010.201
Ca2PrCr2NbO9
0,0,0Pnma (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
2020.202
Ca2PrCr2TaO9
0,0,0Pnma (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
2030.203
Mn3Ge
0,0,0P63/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
2040.204
Ca2MnReO6
0,0,0P21/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
2050.205
Sr2MnReO6
0,0,0P21/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
2060.206
Ca2Fe0.875Cr0.125GaO5
0,0,0Pnma (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
2070.207
TlFe1.6Se2
0,0,0I4/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
2080.208
TlFe1.6Se2
0,0,0I4/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
2090.209
TlFe1.6Se2
0,0,0I4/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
2100.210
Sr2CoOsO6
0,0,0B2/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
2110.211
Ca2MnO4
0,0,0I41/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
2120.212
Sr2Mn3As2O2
0,0,0I4/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
2130.213
Sr2Mn2CuAs2O2
0,0,0I4/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
2140.214
FePbBiO4
0,0,0P42/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
2150.215
BaNi2P2O8
0,0,0R-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
2160.216
SrEr2O4
0,0,0Pnma (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
2170.217
LiCrGe2O6
0,0,0P21/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
2180.218
Co2SiO4
0,0,0Pnma (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
2190.219
Co2SiO4
0,0,0Pnma (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
2200.220
Mn2SiO4
0,0,0Pnma (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
2210.221
Fe2SiO4
0,0,0Pnma (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
2220.222
CuMnAs
0,0,0P4/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
2230.223
Cu0.95MnAs
0,0,0Pnma (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
2240.224
Nd0.5Tb0.5Co2
0,0,0Fd-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
2250.225
Nd0.5Tb0.5Co2
0,0,0Fd-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
2260.226
NdCo2
0,0,0Fd-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
2270.227
NdCo2
0,0,0Fd-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
2280.228
TbCo2
0,0,0Fd-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
2290.229
Ba2MnSi2O7
0,0,0P-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
2300.230
K2CoP2O7
0,0,0P42/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
2310.231
TmMn3O6
0,0,0Pmmn (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
2320.232
TmMn3O6
0,0,0Pmmn (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
2330.233
Mn2FeSbO6
0,0,0R-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
2340.234
MnLaMnSbO6
0,0,0P42/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
2350.235
MnPrMnSbO6
0,0,0P42/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
2360.236
CaFe4Al8
0,0,0I4/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
2370.237
Er2Sn2O7
0,0,0Fd-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
2380.238
Er2Pt2O7
0,0,0Fd-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
2390.239
Ca3LiRuO6
0,0,0R-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
2400.240
Er2Cu2O5
0,0,0Pna21 (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
2410.241
Y2Cu2O5
0,0,0Pna21 (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
2420.242
Tm2Cu2O5
0,0,0Pna21 (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
2430.243
Li2Fe(SO4)2
0,0,0Pbca (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
2440.244
Li2Co(SO4)2
0,0,0Pbca (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
2450.245
Li1.5Fe(SO4)2
0,0,0Pbca (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
2460.246
LiFe(SO4)2
0,0,0Pbca (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
2470.247
Nd2NiO4.11
0,0,0P42/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
2480.248
TbPt0.8Cu0.2
0,0,0Pnma (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
2490.249
NdNi0.6Cu0.4
0,0,0Pnma (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
2500.250
(NH2(CH3)2)(FeCo(HCOO)6)
0,0,0P-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
2510.251
(NH2(CH3)2)(FeMn(HCOO)6)
0,0,0P-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
2520.252
Cs2FeCl5.D2O
0,0,0C2/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
2530.253
Cs2FeCl5.D2O
0,0,0C2/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
2540.254
[C(ND2)3]Cu(DCOO)3
0,0,0Pna21 (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
2550.255
[C(ND2)3]Cu(DCOO)3
0,0,0Pna21 (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
2560.256
[C(ND2)3]Mn(DCOO)3
0,0,0Pnna (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
2570.257
[C(ND2)3]Co(DCOO)3
0,0,0Pnna (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
2580.258
Li3Fe2(PO4)3
0,0,0P21/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
2590.259
Li3Fe2(PO4)3
0,0,0R-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
2600.260
CuFePO5
0,0,0Pnma (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
2610.261
NiFePO5
0,0,0Pnma (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
2620.262
CoFePO5
0,0,0Pnma (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
2630.263
Fe2PO5
0,0,0Pnma (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
2640.264
Fe3(PO4)2
0,0,0P21/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
2650.265
Mn3(Co0.61Mn0.39)N
0,0,0Pm-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
2660.266
Na2BaCo(VO4)2
0,0,0P-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
2670.267
YbMnBi2
0,0,0P4/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
2680.268
Tb2MnNiO6
0,0,0P21/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
2690.269
Tb2MnNiO6
0,0,0P21/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
2700.270
Tb2MnNiO6
0,0,0P21/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
2710.271
Tb2MnNiO6
0,0,0P21/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
2720.272
Tb2MnNiO6
0,0,0P21/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
2730.273
Mn3ZnN
0,0,0Pm-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
2740.274
Mn4N
0,0,0Pm-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
2750.275
Mn3AlN
0,0,0Pm-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
2760.276
Mn3AlN
0,0,0Pm-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
2770.277
MgMnO3
0,0,0R-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
2780.278
Cu0.82Mn1.18As
0,0,0P-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
2790.279
Mn3As
0,0,0P63/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
2800.280
Mn3As
0,0,0P63/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
2810.281
Co2V2O7
0,0,0P21/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
2820.282
U14Au51
0,0,0P6/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
2830.283
U14Au51
0,0,0P6/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
2840.284
KOsO4
0,0,0I41/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
2850.285
KRuO4
0,0,0I41/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
2860.286
Mn5Ge3
0,0,0P63/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
2870.287
SrCo(VO4)(OH)
0,0,0P212121 (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
2880.288
NdMnO3
0,0,0Pnma (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
2890.289
NdMnO3
0,0,0Pnma (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
2900.290
CeCu2
0,0,0Imma (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
2910.291
Tl2NiMnO6
0,0,0P21/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
2920.292
NiTe2O5
0,0,0Pnma (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
2930.293
(Tm0.7Mn0.3)MnO3
0,0,0Pnma (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
2940.294
Cu4(OD)6FBr
0,0,0Pnma (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
2950.295
Cu2(OD)3Cl
0,0,0P21/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
2960.296
Cu2(OD)3Cl
0,0,0P21/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
2970.297
NaCrGe2O6
0,0,0C2/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
2980.298
Na2BaFe(VO4)2
0,0,0C2/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
2990.299
Fe2O3
0,0,0Pna21 (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
3000.300
Fe2O3
0,0,0Pna21 (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
3010.301
Sr2CoTeO6
0,0,0P21/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
3020.302
Sr2Co0.9Mg0.1TeO6
0,0,0P21/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
3030.303
BaCrF5
0,0,0P212121 (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: ?
3040.304
Pr0.5Sr0.5CoO3
0,0,0Imma (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
3050.305
Pr0.5Sr0.5CoO3
0,0,0I4/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
3060.306
GaFeO3
0,0,0R3c (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
3070.307
ScCrO3
0,0,0Pnma (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
3080.308
InCrO3
0,0,0Pnma (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
3090.309
TlCrO3
0,0,0Pnma (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
3100.310
NaMnFeF6
0,0,0P321 (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
3110.311
CoGeO3
0,0,0Pbca (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
3120.312
MnGeO3
0,0,0C2/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
3130.313
MnGeO3
0,0,0Pbca (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
3140.314
ZrCo2Ge4O12
0,0,0P4/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
3150.315
ZrMn2Ge4O12
0,0,0P4/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
3160.316
DyCrWO6
0,0,0Pna21 (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
3170.317
Ho2CoMnO6
0,0,0P21/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
3180.318
Tm2CoMnO6
0,0,0P21/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
3190.319
Tm2CoMnO6
0,0,0P21/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
3200.320
U2Pd2In
0,0,0P4/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
3210.321
U2Pd2Sn
0,0,0P4/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
3220.322
Cu1.94Mn1.06BO5
0,0,0P21/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
3230.323
LaCrO3
0,0,0Pnma (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
3240.324
CdYb2S4
0,0,0Fd-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
3250.325
CdYb2Se4
0,0,0Fd-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
3260.326
Nd2Sn2O7
0,0,0Fd-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
3270.327
CsMnF4
0,0,0P4/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: ?
3280.328
KMnF4
0,0,0P21/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
3290.329
RbMnF4
0,0,0P21/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
3300.330
ErGe3
0,0,0Cmcm (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
3310.331
Fe2Mo3O8
0,0,0P63mc (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
3320.332
Co2Mo3O8
0,0,0P63mc (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
3330.333
Mn2Mo3O8
0,0,0P63mc (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
3340.334
CoF3
0,0,0R-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
3350.335
FeF3
0,0,0R-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
3360.336
NdFeO3
0,0,0Pnma (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
3370.337
NdFeO3
0,0,0Pnma (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
3380.338
Co2Mo3O8
0,0,0P63mc (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
3390.339
Nd2Hf2O7
0,0,0Fd-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
3400.340
Nd2Zr2O7
0,0,0Fd-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
3410.341
DyGe1.75
0,0,0Cmmm (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
3420.342
Tb3Ge5
0,0,0Fdd2 (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
3430.343
TbGe2
0,0,0Cmmm (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
3440.344
ErGe1.83
0,0,0Cmc21 (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
3450.345
Tb2C3
0,0,0I-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
3460.346
Tb2ReC2
0,0,0Pnma (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
3470.347
Er2ReC2
0,0,0Pnma (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
3480.348
Bi2CuO4
0,0,0P4/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
3490.349
Nd2NiO4
0,0,0P42/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
3500.350
TbAlO3
0,0,0Pbnm (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
3510.351
TbFeO3
0,0,0Pbnm (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
3520.352
TbFeO3
0,0,0Pbnm (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
3530.353
TbFeO3
0,0,0Pbnm (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
3540.354
TbCrO3
0,0,0Pbnm (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
3550.355
Mn2.85Ga1.15
0,0,0P63/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
3560.356
Mn2.85Ga1.15
0,0,0I4/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
3570.357
CaFe5O7
0,0,0P21/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
3580.358
CaFe5O7
0,0,0P21/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
3590.359
Mn2ScSbO6
0,0,0R3 (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
3600.360
Mn2ScSbO6
0,0,0P21/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
3610.361
Sr3LiRuO6
0,0,0R-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
3620.362
RbFeCl5(D2O)
0,0,0Pnma (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
3630.363
KFeCl5(D2O)
0,0,0Pnma (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
3640.364
SrCr2As2
0,0,0I4/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
3650.365
BaCr2As2
0,0,0I4/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
3660.366
BaCrFeAs2
0,0,0I4/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
3670.367
EuCr2As2
0,0,0I4/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
3680.368
(CH3NH3)(Co(COOH)3
0,0,0Pnma (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
3690.369
(CH3NH3)(Co(COOH)3
0,0,0P21/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
3700.370
NdMnO3
0,0,0Pnma (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
3710.371
NdMnO3
0,0,0Pnma (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
3720.372
DyCrO4
0,0,0I41/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
3730.373
La0.75Bi0.25Fe0.5Cr0.5O3
0,0,0Pnma (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
3740.374
YNi4Si
0,0,0Cmmm (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
3750.375
La2CoIrO6
0,0,0P21/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: ?
3760.376
LaCaFeO4
0,0,0Cmce (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
3770.377
Mn3Ge
0,0,0P63/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
3780.378
UBi2
0,0,0P4/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
3790.379
SmFeO3
0,0,0Pbnm (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
3800.380
SmFeO3
0,0,0Pnma (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
3810.381
Co6(OH)3(TeO3)4(OH)0.9(H20)
0,0,0P63mc (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
3820.382
LiMnPO4
0,0,0Pnma (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
3830.383
LiCoPO4
0,0,0Pnma (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
3840.384
LiCoPO4
0,0,0Pnma (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
3850.385
LiCoPO4
0,0,0Pnma (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
3860.386
Fe3BO5
0,0,0Pnma (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
3870.387
Fe3BO5
0,0,0Pnma (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
3880.388
Co3Al2Si3O12
0,0,0Ia-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
3890.389
Fe1.5Mn1.5BO5
0,0,0Pbam (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
3900.390
Y2SrCu0.6Co1.4O6.5
0,0,0Ibam (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
3910.391
Y2SrCu0.6Co1.4O6.5
0,0,0Ibam (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
3920.392
Fe3(PO4)2(OH)2
0,0,0P21/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
3930.393
Cu4(OH)6FBr
0,0,0P63/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
3940.394
Cu2CdB2O6
0,0,0P21/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
3950.395
MnPtGa
0,0,0P63/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
3960.396
MnPtGa
0,0,0P63/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
3970.397
Mn3Si2Te6
0,0,0P-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
3980.398
Ca2RuO4
0,0,0Pbca (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
3990.399
FeOOH
0,0,0Pbnm (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
4000.400
Sr2Fe1.9Co0.1O5.5
0,0,0Cmmm (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
4010.401
Sr4Fe4O11
0,0,0Cmmm (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
4020.402
Sr4Fe4O11
0,0,0Cmmm (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
4030.403
NdCo2
0,0,0Fd-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
4040.404
Sr3NaRuO6
0,0,0R-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
4050.405
CsCoF4
0,0,0I-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
4060.406
GdNiSi3
0,0,0Cmmm (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
4070.407
NdSi
0,0,0Pnma (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
4080.408
PrSi
0,0,0Pnma (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
4090.409
TmNi
0,0,0Pnma (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
4100.410
GdAlO3
0,0,0Pbnm (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
4110.411
Tb5Ge4
0,0,0Pnma (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
4120.412
Tb5Ge4
0,0,0Pnma (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
4130.413
UGeSe
0,0,0I4/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
4140.414
AlFe2B2
0,0,0Cmmm (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
4150.415
EuFe2P2
0,0,0I4/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
4160.416
LaCrO3
0,0,0R-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
4170.417
LaCrO3
0,0,0Pnma (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
4180.418
K0.8Fe1.8Se2
0,0,0I4/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
4190.419
Er2Ge2O7
0,0,0P41212 (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
4200.420
Sr2LuRuO6
0,0,0P21/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
4210.421
EuMnSb2
0,0,0Pnma (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
4220.422
EuMnSb2
0,0,0Pnma (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
4230.423
EuMnSb2
0,0,0Pnma (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
4240.424
EuMnSb2
0,0,0Pnma (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
4250.425
Na2CoP2O7
0,0,0Pna21 (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
4260.426
EuMnBi2
0,0,0I4/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
4270.427
Sm2Ti2O7
0,0,0Fd-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
4280.428
BaMn2Si2O7
0,0,0C2/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
4290.429
CaCr0.86Fe3.14As3
0,0,0Pnma (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
4300.430
Yb3Pt4
0,0,0R-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
4310.431
CuB2O4
0,0,0I-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
4320.432
KMnF3
0,0,0Pnma (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
4330.433
KMnF3
0,0,0I4/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
4340.434
K2ReI6
0,0,0P21/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
4350.435
Pb5Fe3TiO11Cl
1/2,1/2,0P4/mmm (123)
(standard)
(2a,2b,c;0,0,0)PBmma (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
4360.436
TbNi4Si
0,0,0Cmmm (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
4370.437
Ho3NiGe2
0,0,0Pnma (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
4380.438
Pr3CoGe2
0,0,0Pnma (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
4390.439
Tb3NiGe2
0,0,0Pnma (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
4400.440
SrCuTe2O6
0,0,0P4132 (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
4410.441
Fe4Nb2O9
0,0,0P-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
4420.442
Fe4Nb2O9
0,0,0C2/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
4430.443
Fe4Nb2O9
0,0,0P-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
4440.444
YbCl3
0,0,0C2/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
4450.445
MnCoGe
0,0,0Pnma (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
4460.446
MnCoGeB0.05
0,0,0P63/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
4470.447
MnCoGeB0.05
0,0,0P63/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
4480.448
Ce4Ge3
0,0,0I-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
4490.449
Tb2Pt
0,0,0Pnma (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
4500.450
Nd5Ge4
0,0,0Pnma (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
4510.451
DyRuAsO
0,0,0Pmmn (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
4520.452
TbRuAsO
0,0,0P4/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
4530.453
DyCoSi2
0,0,0Cmcm (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
4540.454
PrScSb
1,1,1I4/mmm (139)
(standard)
(a,b,c;0,0,0)PI4/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
4550.455
RbFeO2
0,0,0Pbca (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
4560.456
RbFeO2
0,0,0Fd-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
4570.457
CsFeO2
0,0,0Pbca (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
4580.458
CsFeO2
0,0,0Fd-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
4590.459
KFeO2
0,0,0Pbca (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
4600.460
KFeO2
0,0,0Pbca (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
4610.461
CoRh2O4
0,0,0Fd-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
4620.462
MnAl2O4
0,0,0Fd-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
4630.463
Co3O4
0,0,0Fd-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
4640.464
BaMn2P2
0,0,0I4/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
4650.465
HoCr2Si2
0,0,0I4/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
4660.466
ThCr2Si2
0,0,0I4/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
4670.467
TbPO4
0,0,0I41/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
4680.468
ErB4
0,0,0P4/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
4690.469
TbB4
0,0,0P4/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
4700.470
BaMn2Sb2
0,0,0I4/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
4710.471
Ba2Mn3Sb2O2
0,0,0I4/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
4720.472
LaMn2Si2
0,0,0I4/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
4730.473
LaMn2Si2
0,0,0I4/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
4740.474
EuMn2Ge2
0,0,0I4/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
4750.475
Sr2TbIrO6
0,0,0P21/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
4760.476
Cs2[FeCl5(H2O)]
0,0,0I2/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
4770.477
Mn4Ta2O9
0,0,0P-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
4780.478
SmCrO3
0,0,0Pnma (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
4790.479
SmCrO3
0,0,0Pnma (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
4800.480
HoNi
0,0,0Pnma (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
4810.481
HoNi
0,0,0Pnma (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
4820.482
SrMn2As2
0,0,0P-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
4830.483
YbMn2Sb2
0,0,0P-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
4840.484
U2N2S
0,0,0P-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
4850.485
U2N2Se
0,0,0P-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
4860.486
ErCr2Si2
0,0,0I4/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
4870.487
ErCr2Si2
0,0,0I4/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
4880.488
YbMnO3
0,0,0P63cm (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
4890.489
YbMnO3
0,0,0P63cm (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
4900.490
YbMnO3
0,0,0P63cm (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
4910.491
NdB4
0,0,0P4/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
4920.492
NdB4
0,0,0P4/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
4930.493
Ho(Co0.667Ga0.333)2
0,0,0P63/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
4940.494
Er(Co0.667Ga0.333)2
0,0,0P63/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
4950.495
LaMn2Si2
0,0,0I4/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
4960.496
LaMn2Si2
0,0,0I4/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
4970.497
LaMn2Si2
0,0,0I4/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
4980.498
LaMn2Si2
0,0,0I4/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
4990.499
UCr2Si2C
0,0,0P4/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
5000.500
Ca2FeMn0.5W0.5O6
0,0,0P21/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
5010.501
LiFe2F6
0,0,0P42/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
5020.502
La2Ni1.19Os0.81O6
0,0,0P21/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
5030.503
K1.62Fe4O6.62(OH)0.38
0,0,0P-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
5040.504
NaCrSi2O6
0,0,0C2/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
5050.505
Pb2VO(PO4)2
0,0,0P21/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
5060.506
Cs2Cu3SnF12
0,0,0P21/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
5070.507
Mn4Nb2O9
0,0,0P-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
5080.508
FeMnO3
0,0,0Ia-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
5090.509
BaFe12O19
0,0,0P63/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
5100.510
Mn2NiReO6
0,0,0P21/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
5110.511
Co4Ta2O9
0,0,0P-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
5120.512
Mn3As2
0,0,0C2/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
5130.513
YRuO3
0,0,0Pnma (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
5140.514
CoFe3O5
0,0,0Cmcm (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
5150.515
CoFe3O5
0,0,0Cmcm (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
5160.516
BaMg2Fe16O27
0,0,0P63/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
5170.517
BaCo2Fe16O27
0,0,0P63/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
5180.518
TbCr2Si2
0,0,0I4/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
5190.519
HoCr2Si2
0,0,0I4/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
5200.520
TbCoO3
0,0,0Pbnm (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
5210.521
DyCoO3
0,0,0Pbnm (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
5220.522
La2O3FeMnSe2
0,0,0I4/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
5230.523
CaMn2Sb2
0,0,0P-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
5240.524
MnPSe3
0,0,0R-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
5250.525
NaCeO2
0,0,0I41/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
5260.526
Mn4Ta2O9
0,0,0P-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
5270.527
Er2Si2O7
0,0,0C2/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
5280.528
CrSb
0,0,0P63/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
5290.529
Co4Nb2O9
0,0,0P-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
5300.530
SrCuTe2O6
0,0,0P4132 (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
5310.531
Sr0.7Tb0.3CoO2.9
0,0,0I4/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
5320.532
Sr0.7Ho0.3CoO2.7
0,0,0I4/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
5330.533
Sr0.7Er0.3CoO2.8
0,0,0I4/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
5340.534
Tb0.55Sr0.45MnO3
0,0,0Pnma (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
5350.535
Tb0.55Sr0.45MnO3
0,0,0Pnma (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
5360.536
Tb0.55Sr0.45MnO3
0,0,0Pnma (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
5370.537
CaMn0.7Co1.3ReO6
0,0,0P42/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
5380.538
CaMn1.2Ni0.8ReO6
0,0,0P42/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
5390.539
Mn2Fe0.8Mo1.2O6
0,0,0P21/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
5400.540
Mn2Fe0.8Mo1.2O6
0,0,0P21/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
5410.541
Mn2FeReO6
0,0,0P21/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
5420.542
Mn2FeReO6
0,0,0P21/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
5430.543
Mn2FeReO6
0,0,0P21/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
5440.544
Mn2FeReO6
0,0,0P21/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
5450.545
Mn2FeReO6
0,0,0P21/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
5460.546
Mn2FeReO6
0,0,0P21/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
5470.547
Mn2FeReO6
0,0,0P21/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
5480.548
Mn2FeReO6
0,0,0P21/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
5490.549
Mn2FeReO6
0,0,0P21/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
5500.550
Mn3ReO6
1/2,1/2,0P21/c (14)
(a,b,-a+c;0,0,0)
(2a,2b,c;0,0,0)PS-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
5510.551
Mn3ReO6
1/2,1/2,0P21/c (14)
(a,b,-a+c;0,0,0)
(2a,2b,c;0,0,0)PS-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
5520.552
Pb2MnO4
0,0,0P-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
5530.553
K2ReI6
0,0,0P21/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
5540.554
Co2MnSi
0,0,0Fm-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
5550.555
Ho0.05Bi0.95FeO3
0,0,0R3c (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
5560.556
Ho0.1Bi0.9FeO3
0,0,0R3c (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
5570.557
Ho0.15Bi0.85FeO3
0,0,0R3c (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
5580.558
Ho0.2Bi0.8FeO3
0,0,0R3c (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
5590.559
Ho0.15Bi0.85FeO3
0,0,0Pnma (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
5600.560
Ho0.2Bi0.8FeO3
0,0,0Pnma (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
5610.561
NdNiGe2
0,0,0Cmcm (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
5620.562
Ce2Ni3Ge5
1,1,1Ibam (72)
(standard)
(a,b,c;0,0,0)PIbcn (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
5630.563
Ce2Ni3Ge5
1,1,1Ibam (72)
(standard)
(a,b,c;0,0,0)PIccn (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
5640.564
U2Rh3Si5
0,1,0I2/c (15)
(a+c,b,c;0,0,0)
(a,b,c;0,0,0)PC2/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
5650.565
Ce2Ni3Ge5
1,1,1Ibam (72)
(standard)
(a,b,c;0,0,0)PIbcn (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
5660.566
TbNiGe2
0,0,0Cmcm (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
5670.567
HoNi0.64Ge2
0,0,0Cmcm (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
5680.568
TbNi0.4Ge2
0,0,0Cmcm (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
5690.569
TbCu0.4Ge2
0,0,0Cmcm (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
5700.570
Li0.5FeCr1.5O4
0,0,0Fd-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
5710.571
CoSO4
0,0,0Pbnm (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
5720.572
Na2NiCrF7
0,0,0Imma (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
5730.573
Na2NiCrF7
0,0,0Imma (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
5740.574
MnFeF5(H2O)2
0,0,0Imm2 (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
5750.575
ZnFeF5(H2O)2
0,0,0Imm2 (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
5760.576
Cr2F5
0,0,0C2/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
5770.577
BaMnFeF7
0,0,0P21/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
5780.578
NaBaFe2F9
0,0,0P21/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
5790.579
Na2NiFeF7
0,0,0Imma (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
5800.580
Na2NiFeF7
0,0,0Imma (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
5810.581
FeF3
0,0,0R-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
5820.582
Fe3F8(H2O)2
0,0,0C2/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
5830.583
Fe2F5(H2O)2
0,0,0Imma (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
5840.584
Fe2F5(H2O)2
0,0,0Imma (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
5850.585
YbCl3
0,0,0C2/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
5860.586
YCrO3
0,0,0Pbnm (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
5870.587
TmCrO3
0,0,0Pbnm (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
5880.588
PrCrO3
0,0,0Pbnm (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
5890.589
NdCrO3
0,0,0Pbnm (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
5900.590
ErCrO3
0,0,0Pbnm (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
5910.591
ErCrO3
0,0,0Pbnm (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
5920.592
DyCrO3
0,0,0Pbnm (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
5930.593
UPSe
0,0,0P4/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
5940.594
UAsS
0,0,0P4/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
5950.595
UPTe
0,0,0I4/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
5960.596
UAsTe
0,0,0I4/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
5970.597
MnBi8Te13
0,0,0R-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
5980.598
AlCr2
0,0,1I4/mmm (139)
(standard)
(a,b,c;0,0,0)PA21/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
5990.599
CaMnSi
0,0,0P4/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
6000.600
CaMnSi
0,0,0P4/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
6010.601
CaMnGe
0,0,0P4/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
6020.602
CaMnGe
0,0,0P4/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
6030.603
CaMn2Ge2
0,0,0I4/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
6040.604
CaMn2Ge2
0,0,0I4/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
6050.605
BaMn2Ge2
0,0,0I4/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
6060.606
BaMn2Ge2
0,0,0I4/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
6070.607
RuO2
0,0,0P42/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
6080.608
PrMnO3
0,0,0Pbnm (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
6090.609
NdMnO3
0,0,0Pbnm (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
6100.610
Pr0.95K0.05MnO3
0,0,0Pbnm (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
6110.611
BaMnSb2
0,0,0I4/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
6120.612
Cu2OSO4
0,0,0C2/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
6130.613
FeCr2S4
0,0,0Fd-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
6140.614
FeCr2S4
0,0,0Fd-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
6150.615
FeCr2S4
0,0,0Fd-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
6160.616
HoB2
0,0,0P6/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
6170.617
KMnSb
0,0,0P4/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
6180.618
KMnBi
0,0,0P4/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
6190.619
LaMnAsO
0,0,0P4/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
6200.620
NdMnAsO
0,0,0P4/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
6210.621
NdMnAsO
0,0,0P4/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
6220.622
NdMnAsO
0,0,0P4/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
6230.623
NdMnAsO
0,0,0P4/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
6240.624
LaMnAsO
0,0,0P4/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
6250.625
U2Pd2In
0,0,0P4/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
6260.626
NaMnP
0,0,0P4/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
6270.627
NaMnP
0,0,0P4/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
6280.628
NaMnP
0,0,0P4/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
6290.629
NaMnAs
0,0,0P4/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
6300.630
NaMnAs
0,0,0P4/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
6310.631
NaMnSb
0,0,0P4/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
6320.632
NaMnSb
0,0,0P4/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
6330.633
KFeS2
0,0,0C2/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
6340.634
NaMnBi
0,0,0P4/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
6350.635
NaMnBi
0,0,0P4/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
6360.636
RbFeS2
0,0,0C2/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
6370.637
KFeSe2
0,0,0C2/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
6380.638
RbFeSe2
0,0,0C2/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
6390.639
Mn2Au
0,0,0I4/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
6400.640
Mn2Au
0,0,0I4/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
6410.641
Mn3Ga
0,0,0I4/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
6420.642
LaMnO3
0,0,0Pnma (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
6430.643
La0.95Ca0.05MnO3
0,0,0Pnma (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
6440.644
La0.95Ba0.05MnO3
0,0,0Pnma (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
6450.645
La0.95Ba0.05Mn0.95Ti0.05O3
0,0,0Pnma (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
6460.646
La0.90Ba0.10Mn0.90Ti0.10O3
0,0,0Pnma (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
6470.647
La0.875Ba0.125Mn0.875Ti0.125O3
0,0,0Pnma (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
6480.648
(Ho0.8Mn0.2)MnO3
0,0,0Pnma (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
6490.649
(Ho0.8Mn0.2)MnO3
0,0,0Pnma (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
6500.650
Er2Si2O7
0,0,0C2/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
6510.651
Er3Cu4Sn4
0,0,1/2C2/m (12)
(standard)
(a,b,2c;0,0,0)Cc2/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
6520.652
HoMnO3
0,0,0P63cm (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
6530.653
HoMn0.99Fe0.01O3
0,0,0P63cm (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
6540.654
HoMn0.95Fe0.05O3
0,0,0P63cm (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
6550.655
HoMn0.9Fe0.1O3
0,0,0P63cm (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
6560.656
NdMn2Ge2
0,0,0I4/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
6570.657
PrMn2Ge2
0,0,0I4/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
6580.658
BaCuTe2O6
0,0,0P4132 (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
6590.659
NdMn0.8Fe0.2O3
0,0,0Pnma (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
6600.660
NdMn0.8Fe0.2O3
0,0,0Pnma (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
6610.661
(Lu0.6Mn0.4)MnO3
0,0,0Pnma (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
6620.662
Mn3Sn2
0,0,0Pnma (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
6630.663
Mn3Sn2
0,0,0Pnma (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
6640.664
Mn3Sn2
0,0,0Pnma (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
6650.665
CeMnSbO
0,0,0P4/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
6660.666
CeMnSbO
0,0,0P4/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
6670.667
LaMnSbO
0,0,0P4/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
6680.668
PrMnSbO
0,0,0P4/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
6690.669
Sr2YbRuO6
0,0,0P1121/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
6700.670
Sr2YbRuO6
0,0,0P21/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
6710.671
Sr2TmRuO6
0,0,0P21/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
6720.672
CaCu3Fe2Sb2O12
0,0,0Pn-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
6730.673
MnFe4Si3
0,0,0P63/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
6740.674
MnFe4Si3
0,0,0P63/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
6750.675
MnFe4Si3
0,0,0P63/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
6760.676
Nd0.95Sr0.05CrO3
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
6770.677
Nd0.9Sr0.1CrO3
0,0,0Pbnm (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
6780.678
Nd0.85Sr0.15CrO3
0,0,0Pbnm (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
6790.679
TbCr0.5Mn0.5O3
0,0,0Pbnm (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
6800.680
Bi0.8La0.2Fe0.5Mn0.5O3
0,0,0Imma (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
6810.681
Ce4Sb3
0,0,0I-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
6820.682
Ca2FeOsO6
0,0,0P21/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
6830.683
SrCaFeOsO6
0,0,0P21/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
6840.684
TbPt
0,0,0Pnma (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
6850.685
ErPt
0,0,0Pnma (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
6860.686
HoPt
0,0,0Pnma (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
6870.687
DyPt
0,0,0Pnma (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
6880.688
TmPt
0,0,0Pnma (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
6890.689
PrPt
0,0,0Cmcm (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
6900.690
NdPt
0,0,0Cmcm (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
6910.691
CaCo1.86As2
1,1,1I4/mmm (139)
(standard)
(a,b,c;0,0,0)PI4/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
6920.692
Ba4Ru3O10
0,0,0Cmce (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
6930.693
Ba4Ru3O10
0,0,0Cmce (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
6940.694
Bi2CuO4
0,0,0P4/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
6950.695
Bi2CuO4
0,0,0P4/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
6960.696
SmCrO3
0,0,0Pbnm (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
6970.697
SmCrO3
0,0,0Pbnm (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
6980.698
SmCrO3
0,0,0Pbnm (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
6990.699
LiMn6Sn6
0,0,0P6/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
7000.700
TbMn6Sn6
0,0,0P6/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
7010.701
TbMn6Sn6
0,0,0P6/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
7020.702
TbMn6Sn6
0,0,0P6/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
7030.703
HoMn6Sn6
0,0,0P6/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
7040.704
HoMn6Sn6
0,0,0P6/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
7050.705
HoMn6Sn6
0,0,0P6/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
7060.706
Tb2Ir3Ga9
0,0,0Cmcm (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
7070.707
Tb2Ir3Ga9
0,0,0Cmcm (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
7080.708
CrNb4S8
0,0,0P63/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
7090.709
MnNb4S8
0,0,0P63/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
7100.710
MnNb3S6
0,0,0P6322 (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
7110.711
MnTa4S8
0,0,0P63/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
7120.712
VNb3S6
0,0,0P6322 (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
7130.713
NiFe2O4
0,0,0Fd-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
7140.714
Li2Ni(SO4)2
0,0,0P21/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
7150.715
HoCrWO6
0,0,0Pna21 (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
7160.716
HoCrWO6
0,0,0Pna21 (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
7170.717
Pr0.5Sr0.4Ba0.1CoO3
0,0,0Imma (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
7180.718
Pr0.5Sr0.4Ba0.1CoO3
0,0,0I4/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
7190.719
Yb0.42Sc0.58FeO3
0,0,0P63cm (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
7200.720
Yb0.42Sc0.58FeO3
0,0,0P63cm (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
7210.721
Yb0.42Sc0.58FeO3
0,0,0P63cm (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
7220.722
Mn4Nb2O9
0,0,0Cc (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
7230.723
YbCl3
0,0,0C2/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
7240.724
BaCoSiO4
0,0,0P63 (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
7250.725
Ce5TeO8
0,0,0Fd-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
7260.726
CsMn2F6
0,0,0Pnma (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
7270.727
CsMn2F6
0,0,0Pnma (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
7280.728
MoP3SiO11
0,0,0R-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
7290.729
ErNi4B
0,0,0P6/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
7300.730
TbNi4B
0,0,0P6/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
7310.731
HoNi4B
0,0,0P6/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
7320.732
SrRuO3
0,0,0Pnma (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
7330.733
AgRuO3
0,0,0R-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
7340.734
Mn3Ta2O8
0,0,0I41/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
7350.735
LaBaMn2O5
0,0,0P4/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
7360.736
LaBaMn2O6
0,0,0Pm-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
7370.737
LaBaMn2O6
0,0,0P4/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
7380.738
LaBaMn2O6
0,0,0P4/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
7390.739
YBaMn2O5
0,0,0P4/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
7400.740
Dy3Ga5O12
0,0,0Ia-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
7410.741
Er3Ga5O12
0,0,0Ia-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
7420.742
Tb3Ga5O12
0,0,0Ia-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
7430.743
Ho3Al5O12
0,0,0Ia-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
7440.744
Tb3Al5O12
0,0,0Ia-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
7450.745
Ho3Ga5O12
0,0,0Ia-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
7460.746
Tb3Ga5O12
0,0,0Ia-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
7470.747
Ba3CoIr2O9
0,0,0C2/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
7480.748
Ba3NiRu2O9
0,0,0P63/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
7490.749
Ba3CoRu2O9
1,0,0Cmcm (63)
(standard)
(a,b,c;0,0,0)PBnma (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
7500.750
Ba3CoRu2O9
1/2,0,0P63/mmc (194)
(standard)
(b,2a+b,-c;0,0,0)PBnma (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
7510.751
Ca2YZr2Fe3O12
0,0,0Ia-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
7520.752
Ca2YZr2Fe3O12
0,0,0Ia-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
7530.753
Ca2LaZr2Fe3O12
0,0,0Ia-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
7540.754
Ca2LaZr2Fe3O12
0,0,0Ia-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
7550.755
Mn2SeO3F2
0,0,0Pnma (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
7560.756
GaV4S8
0,0,0R3m (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
7570.757
CeFeO3
0,0,0Pbnm (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
7580.758
CeFeO3
0,0,0Pbnm (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
7590.759
CeFeO3
0,0,0Pbnm (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
7600.760
FeOHSO4
0,0,0C2/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
7610.761
SrFe2Se2O
0,0,0Pmmn (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
7620.762
SrFe2S2O
0,0,0Pmmn (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
7630.763
Mn5(PO4)2(PO3(OH))2(HOH)4
0,0,0C2/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
7640.764
Mn5(PO4)2(PO3(OH))2(HOH)4
0,0,0C2/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
7650.765
Mn5(PO4)2(PO3(OH))2(HOH)4
0,0,0C2/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
7660.766
YbMnSb2
0,0,0P4/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
7670.767
SrMnSb2
0,0,0Pnma (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
7680.768
SrMnSb2
0,0,0Pnma (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
7690.769
YbMnBi2
0,0,0P4/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
7700.770
Fe2Co2Nb2O9
0,0,0P-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
7710.771
PrMnSi2
0,0,0Cmcm (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
7720.772
PrMnSi2
0,0,0Cmcm (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
7730.773
NdMnSi2
0,0,0Cmcm (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
7740.774
NdMnSi2
0,0,0Cmcm (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
7750.775
NdMnSi2
0,0,0Cmcm (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
7760.776
CeMnSi2
0,0,0Cmcm (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
7770.777
CeMnSi2
0,0,0Cmcm (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
7780.778
LaMnSi2
0,0,0Cmcm (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
7790.779
LaMnSi2
0,0,0Cmcm (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
7800.780
LaMnSi2
0,0,0Cmcm (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
7810.781
CeMnSi2
0,0,0Cmcm (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
7820.782
NdScO3
0,0,0Pbnm (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
7830.783
NdInO3
0,0,0Pbnm (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
7840.784
NdCoO3
0,0,0Pbnm (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
7850.785
NdVO3
0,0,0Pbnm (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
7860.786
NdVO3
0,0,0Pbnm (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
7870.787
YVO3
0,0,0Pbnm (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
7880.788
YVO3
0,0,0P21/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
7890.789
CeCuSi
0,0,0P63/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
7900.790
Sr2DyRuO6
0,0,0P21/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
7910.791
Sr2TbRuO6
0,0,0P21/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
7920.792
Sr2HoRuO6
0,0,0P21/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
7930.793
Sr2HoRuO6
0,0,0P21/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
7940.794
Sr2HoRuO6
0,0,0P21/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
7950.795
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
7960.796
Ca2NiOsO6
0,0,0P21/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
7970.797
SmBaMn2O5
0,0,0P4/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
7980.798
MnPd2
0,0,0Pnma (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
7990.799
Sr2Co2O5
1,1,1Ima2 (46)
(standard)
(a,b,c;0,0,0)PInc2 (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
8000.800
MnTe
0,0,0P63/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
8010.801
Tl3Fe2S4
0,0,0Pnma (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
8020.802
CuFeS2
0,0,0I-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
8030.803
NbMnP
0,0,0Pnma (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
8040.804
MoP3SiO11
0,0,0R-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
8050.805
DyBaCuO5
0,0,0Pnma (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
8060.806
Fe2Se2O7
0,0,0Pccn (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
8070.807
Fe2Se2O7
0,0,0Pccn (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
8080.808
Fe2Se2O7
0,0,0Pccn (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
8090.809
Fe2WO6
0,0,0P21/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
8100.810
Fe2WO6
0,0,0Pbcn (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
8110.811
Fe2WO6
0,0,0Pbcn (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
8120.812
Fe2WO6
0,0,0Pbcn (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
8130.813
Fe2WO6
0,0,0Pbcn (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
8140.814
Fe2WO6
0,0,0Pbcn (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
8150.815
MnNb2O6
0,0,0Pbcn (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
8160.816
MnTa2O6
0,0,0Pbcn (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
8170.817
Mn(Nb0.5Ta0.5)2O6
0,0,0Pbcn (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
8180.818
MnTa2O6
0,0,0Pbcn (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
8190.819
MnNb2O6
0,0,0Pbcn (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
8200.820
Bi0.85Ca0.15Fe0.55Mn0.45O3
0,0,0Pnma (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
8210.821
SrGd2O4
0,0,0Pnma (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
8220.822
Nd2ScNbO7
0,0,0Fd-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
8230.823
Sr2MnGaO5
0,0,0Ima2 (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
8240.824
Sr2MnGaO5.5
1/2,1/2,0P4/mmm (123)
(standard)
(a+b,-a+b,c;0,0,0)PC4/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
8250.825
Ca2MnGaO5
0,0,0Pnma (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
8260.826
MnTeLi0.003
0,0,0P63/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
8270.827
Na2MnPO4F
0,0,0P21/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
8280.828
Na2MnPO4F
0,0,0P21/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
8290.829
Na2MnPO4F
0,0,0P21/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
8300.830
Na2MnPO4F
0,0,0P21/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
8310.831
BaCaFe4O7
0,0,0Pbn21 (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
8320.832
CeAuGe
0,0,0P63mc (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
8330.833
CeCuGe
0,0,0P63/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
8340.834
CrSbSe3
0,0,0Pnma (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
8350.835
Dy5Pd2In4
0,0,0Pbam (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
8360.836
DyFeO3
0,0,0Pbnm (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
8370.837
DyFeO3
0,0,0Pbnm (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
8380.838
DyFeO3
0,0,0Pbnm (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
8390.839
DyFeO3
0,0,0Pbnm (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
8400.840
DyFeO3
0,0,0Pbnm (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
8410.841
DyFeO3