Crystallography Open Database
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COD ID  |
Links | Formula  |
Space group |
Cell parameters | Cell volume |
Bibliography |
|---|---|---|---|---|---|---|
| 9006598 | CIF | Fe | I m -3 m | 2.8396; 2.8396; 2.8396 90; 90; 90 | 22.897 | Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 6.1 GPa, T = 573 K Physics and Chemistry of Minerals, 1999, 26, 206-211 |
| 9006599 | CIF | Fe | I m -3 m | 2.8339; 2.8339; 2.8339 90; 90; 90 | 22.759 | Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 7.2 GPa, T = 572 K Physics and Chemistry of Minerals, 1999, 26, 206-211 |
| 9006600 | CIF | Fe | I m -3 m | 2.826; 2.826; 2.826 90; 90; 90 | 22.569 | Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 8.7 GPa, T = 573 K Physics and Chemistry of Minerals, 1999, 26, 206-211 |
| 9006601 | CIF | Fe | I m -3 m | 2.8716; 2.8716; 2.8716 90; 90; 90 | 23.679 | Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 2.3 GPa, T = 773 K Physics and Chemistry of Minerals, 1999, 26, 206-211 |
| 9006602 | CIF | Fe | I m -3 m | 2.8599; 2.8599; 2.8599 90; 90; 90 | 23.391 | Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 3.9 GPa, T = 773 K Physics and Chemistry of Minerals, 1999, 26, 206-211 |
| 9006603 | CIF | Fe | I m -3 m | 2.8515; 2.8515; 2.8515 90; 90; 90 | 23.186 | Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 5.3 GPa, T = 774 K Physics and Chemistry of Minerals, 1999, 26, 206-211 |
| 9006604 | CIF | Fe | I m -3 m | 2.8434; 2.8434; 2.8434 90; 90; 90 | 22.989 | Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 6.6 GPa, T = 773 K Physics and Chemistry of Minerals, 1999, 26, 206-211 |
| 9006605 | CIF | Fe | I m -3 m | 2.8373; 2.8373; 2.8373 90; 90; 90 | 22.841 | Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 7.7 GPa, T = 774 K Physics and Chemistry of Minerals, 1999, 26, 206-211 |
| 9006606 | CIF | Fe | I m -3 m | 2.8317; 2.8317; 2.8317 90; 90; 90 | 22.706 | Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 8.9 GPa, T = 773 K Physics and Chemistry of Minerals, 1999, 26, 206-211 |
| 9006607 | CIF | Fe0.91 Si0.09 | I m -3 m | 2.8429; 2.8429; 2.8429 90; 90; 90 | 22.977 | Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 0.0 GPa, T = 298 K, prior to the experiment Physics and Chemistry of Minerals, 1999, 26, 206-211 |
| 9006608 | CIF | Fe0.91 Si0.09 | I m -3 m | 2.8436; 2.8436; 2.8436 90; 90; 90 | 22.994 | Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 0.0 GPa, T = 300 K, after the experiment Physics and Chemistry of Minerals, 1999, 26, 206-211 |
| 9006609 | CIF | Fe0.91 Si0.09 | I m -3 m | 2.8369; 2.8369; 2.8369 90; 90; 90 | 22.831 | Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 1.3 GPa, T = 299 K Physics and Chemistry of Minerals, 1999, 26, 206-211 |
| 9006610 | CIF | Fe0.91 Si0.09 | I m -3 m | 2.827; 2.827; 2.827 90; 90; 90 | 22.593 | Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 3.0 GPa, T = 299 K Physics and Chemistry of Minerals, 1999, 26, 206-211 |
| 9006611 | CIF | Fe0.91 Si0.09 | I m -3 m | 2.819; 2.819; 2.819 90; 90; 90 | 22.402 | Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 4.3 GPa, T = 299 K Physics and Chemistry of Minerals, 1999, 26, 206-211 |
| 9006612 | CIF | Fe0.91 Si0.09 | I m -3 m | 2.8121; 2.8121; 2.8121 90; 90; 90 | 22.238 | Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 5.6 GPa, T = 299 K Physics and Chemistry of Minerals, 1999, 26, 206-211 |
| 9006613 | CIF | Fe0.91 Si0.09 | I m -3 m | 2.8063; 2.8063; 2.8063 90; 90; 90 | 22.101 | Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 6.6 GPa, T = 299 K Physics and Chemistry of Minerals, 1999, 26, 206-211 |
| 9006614 | CIF | Fe0.91 Si0.09 | I m -3 m | 2.7995; 2.7995; 2.7995 90; 90; 90 | 21.94 | Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 8.1 GPa, T = 299 K Physics and Chemistry of Minerals, 1999, 26, 206-211 |
| 9006615 | CIF | Fe0.91 Si0.09 | I m -3 m | 2.8438; 2.8438; 2.8438 90; 90; 90 | 22.998 | Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 1.8 GPa, T = 573 K Physics and Chemistry of Minerals, 1999, 26, 206-211 |
| 9006616 | CIF | Fe0.91 Si0.09 | I m -3 m | 2.8335; 2.8335; 2.8335 90; 90; 90 | 22.749 | Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 3.6 GPa, T = 573 K Physics and Chemistry of Minerals, 1999, 26, 206-211 |
| 9006617 | CIF | Fe0.91 Si0.09 | I m -3 m | 2.8251; 2.8251; 2.8251 90; 90; 90 | 22.548 | Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 4.9 GPa, T = 573 K Physics and Chemistry of Minerals, 1999, 26, 206-211 |
| 9006618 | CIF | Fe0.91 Si0.09 | I m -3 m | 2.818; 2.818; 2.818 90; 90; 90 | 22.378 | Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 6.1 GPa, T = 573 K Physics and Chemistry of Minerals, 1999, 26, 206-211 |
| 9006619 | CIF | Fe0.91 Si0.09 | I m -3 m | 2.812; 2.812; 2.812 90; 90; 90 | 22.235 | Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 7.2 GPa, T = 572 K Physics and Chemistry of Minerals, 1999, 26, 206-211 |
| 9006620 | CIF | Fe0.91 Si0.09 | I m -3 m | 2.8063; 2.8063; 2.8063 90; 90; 90 | 22.101 | Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 8.7 GPa, T = 573 K Physics and Chemistry of Minerals, 1999, 26, 206-211 |
| 9006621 | CIF | Fe0.91 Si0.09 | I m -3 m | 2.8492; 2.8492; 2.8492 90; 90; 90 | 23.13 | Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 2.3 GPa, T = 773 K Physics and Chemistry of Minerals, 1999, 26, 206-211 |
| 9006622 | CIF | Fe0.91 Si0.09 | I m -3 m | 2.8392; 2.8392; 2.8392 90; 90; 90 | 22.887 | Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 3.9 GPa, T = 773 K Physics and Chemistry of Minerals, 1999, 26, 206-211 |
| 9006623 | CIF | Fe0.91 Si0.09 | I m -3 m | 2.8304; 2.8304; 2.8304 90; 90; 90 | 22.675 | Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 5.3 GPa, T = 774 K Physics and Chemistry of Minerals, 1999, 26, 206-211 |
| 9006624 | CIF | Fe0.91 Si0.09 | I m -3 m | 2.8224; 2.8224; 2.8224 90; 90; 90 | 22.483 | Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 6.6 GPa, T = 773 K Physics and Chemistry of Minerals, 1999, 26, 206-211 |
| 9006625 | CIF | Fe0.91 Si0.09 | I m -3 m | 2.8159; 2.8159; 2.8159 90; 90; 90 | 22.328 | Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 7.7 GPa, T = 774 K Physics and Chemistry of Minerals, 1999, 26, 206-211 |
| 9006626 | CIF | Fe0.91 Si0.09 | I m -3 m | 2.8105; 2.8105; 2.8105 90; 90; 90 | 22.2 | Zhang, J.; Guyot, F. Thermal equation of iron and Fe0.91Si0.09 Sample: P = 8.9 GPa, T = 773 K Physics and Chemistry of Minerals, 1999, 26, 206-211 |
| 9006627 | CIF | Al1.971 Fe0.23 Mg0.7 O4 | F d -3 m :2 | 8.067; 8.067; 8.067 90; 90; 90 | 524.972 | Pavese, A.; Artioli, G.; Russo, U.; Hoser, A. Cation partitioning versus temperature in (Mg0.70Fe0.23)Al1.97O4 synthetic spinel by in situ neutron powder diffraction Sample: T = 300 K Physics and Chemistry of Minerals, 1999, 26, 242-250 |
| 9006628 | CIF | Al1.971 Fe0.23 Mg0.7 O4 | F d -3 m :2 | 8.0811; 8.0811; 8.0811 90; 90; 90 | 527.73 | Pavese, A.; Artioli, G.; Russo, U.; Hoser, A. Cation partitioning versus temperature in (Mg0.70Fe0.23)Al1.97O4 synthetic spinel by in situ neutron powder diffraction Sample: T = 523 K Physics and Chemistry of Minerals, 1999, 26, 242-250 |
| 9006629 | CIF | Al1.971 Fe0.23 Mg0.7 O4 | F d -3 m :2 | 8.0973; 8.0973; 8.0973 90; 90; 90 | 530.91 | Pavese, A.; Artioli, G.; Russo, U.; Hoser, A. Cation partitioning versus temperature in (Mg0.70Fe0.23)Al1.97O4 synthetic spinel by in situ neutron powder diffraction Sample: T = 773 K Physics and Chemistry of Minerals, 1999, 26, 242-250 |
| 9006630 | CIF | Al1.969 Fe0.23 Mg0.701 O4 | F d -3 m :2 | 8.1115; 8.1115; 8.1115 90; 90; 90 | 533.708 | Pavese, A.; Artioli, G.; Russo, U.; Hoser, A. Cation partitioning versus temperature in (Mg0.70Fe0.23)Al1.97O4 synthetic spinel by in situ neutron powder diffraction Sample: T = 973 K Physics and Chemistry of Minerals, 1999, 26, 242-250 |
| 9006631 | CIF | Al1.969 Fe0.23 Mg0.701 O4 | F d -3 m :2 | 8.1256; 8.1256; 8.1256 90; 90; 90 | 536.496 | Pavese, A.; Artioli, G.; Russo, U.; Hoser, A. Cation partitioning versus temperature in (Mg0.70Fe0.23)Al1.97O4 synthetic spinel by in situ neutron powder diffraction Sample: T = 1123 K Physics and Chemistry of Minerals, 1999, 26, 242-250 |
| 9006632 | CIF | Al1.969 Fe0.23 Mg0.701 O4 | F d -3 m :2 | 8.1437; 8.1437; 8.1437 90; 90; 90 | 540.089 | Pavese, A.; Artioli, G.; Russo, U.; Hoser, A. Cation partitioning versus temperature in (Mg0.70Fe0.23)Al1.97O4 synthetic spinel by in situ neutron powder diffraction Sample: T = 1273 K Physics and Chemistry of Minerals, 1999, 26, 242-250 |
| 9006633 | CIF | Al1.969 Fe0.23 Mg0.701 O4 | F d -3 m :2 | 8.1612; 8.1612; 8.1612 90; 90; 90 | 543.578 | Pavese, A.; Artioli, G.; Russo, U.; Hoser, A. Cation partitioning versus temperature in (Mg0.70Fe0.23)Al1.97O4 synthetic spinel by in situ neutron powder diffraction Sample: T = 1423 K Physics and Chemistry of Minerals, 1999, 26, 242-250 |
| 9006634 | CIF | Al1.969 Fe0.23 Mg0.701 O4 | F d -3 m :2 | 8.1768; 8.1768; 8.1768 90; 90; 90 | 546.701 | Pavese, A.; Artioli, G.; Russo, U.; Hoser, A. Cation partitioning versus temperature in (Mg0.70Fe0.23)Al1.97O4 synthetic spinel by in situ neutron powder diffraction Sample: T = 1573 K Physics and Chemistry of Minerals, 1999, 26, 242-250 |
| 9006635 | CIF | Al1.969 Fe0.23 Mg0.701 O4 | F d -3 m :2 | 8.1907; 8.1907; 8.1907 90; 90; 90 | 549.494 | Pavese, A.; Artioli, G.; Russo, U.; Hoser, A. Cation partitioning versus temperature in (Mg0.70Fe0.23)Al1.97O4 synthetic spinel by in situ neutron powder diffraction Sample: T = 1723 K Physics and Chemistry of Minerals, 1999, 26, 242-250 |
| 9006636 | CIF | Mg1.82 O4 Si | C 1 2/m 1 (a+c-1/4,b+1/4,c) | 5.674; 11.477; 8.235 90; 90.21; 90 | 536.264 | Kudoh, Y.; Inoue, T. Mg-vacant structural modules and dilution of the symmetry of hydrous wadsleyite, beta-Mg2-xSiH2xO4 with 0.00<=x<=0.25 Sample: 0.3H-beta Physics and Chemistry of Minerals, 1999, 26, 382-388 |
| 9006637 | CIF | Mg1.72 O4 Si | C 1 2/m 1 (a+c-1/4,b+1/4,c) | 5.675; 11.579; 8.244 90; 90.09; 90 | 541.719 | Kudoh, Y.; Inoue, T. Mg-vacant structural modules and dilution of the symmetry of hydrous wadsleyite, beta-Mg2-xSiH2xO4 with 0.00<=x<=0.25 Sample: 0.5H-beta Physics and Chemistry of Minerals, 1999, 26, 382-388 |
| 9006638 | CIF | La0.34 Na0.45 O3 Th0.13 Ti | I 4/m c m | 5.4652; 5.4652; 7.7476 90; 90; 90 | 231.409 | Mitchell, R. H.; Chakhmouradian, A. R. Solid solubility in the system NaLREETi2O6 - ThTi2O6 (LREE, light rare-earth elements): experimental and analytical data Physics and Chemistry of Minerals, 1999, 26, 396-405 |
| 9006639 | CIF | O6 Th Ti2 | C 1 2/m 1 | 9.814; 3.8228; 7.0313 90; 118.82; 90 | 231.119 | Mitchell, R. H.; Chakhmouradian, A. R. Solid solubility in the system NaLREETi2O6 - ThTi2O6 (LREE, light rare-earth elements): experimental and analytical data Physics and Chemistry of Minerals, 1999, 26, 396-405 |
| 9006640 | CIF | Cr2 O4 Si | F d d d :2 | 5.7005; 11.1651; 9.5847 90; 90; 90 | 610.034 | Miletich, R.; Nowak, M.; Seifert, F.; Angel, R. J.; Brandstatter, G. High-pressure crystal chemistry of chromous orthosilicate, Cr2SiO4. A single-crystal X-ray diffraction and electronic absorption spectroscopy study Sample in air: P = 0.0001 GPa Physics and Chemistry of Minerals, 1999, 26, 446-459 |
| 9006641 | CIF | Cr2 O4 Si | F d d d :2 | 5.7007; 11.1653; 9.585 90; 90; 90 | 610.085 | Miletich, R.; Nowak, M.; Seifert, F.; Angel, R. J.; Brandstatter, G. High-pressure crystal chemistry of chromous orthosilicate, Cr2SiO4. A single-crystal X-ray diffraction and electronic absorption spectroscopy study Sample in diamond anvil cell: P = 0.0001 GPa Physics and Chemistry of Minerals, 1999, 26, 446-459 |
| 9006642 | CIF | Cr2 O4 Si | F d d d :2 | 5.6804; 11.1174; 9.3842 90; 90; 90 | 592.624 | Miletich, R.; Nowak, M.; Seifert, F.; Angel, R. J.; Brandstatter, G. High-pressure crystal chemistry of chromous orthosilicate, Cr2SiO4. A single-crystal X-ray diffraction and electronic absorption spectroscopy study Sample: P = 3.106 GPa Physics and Chemistry of Minerals, 1999, 26, 446-459 |
| 9006643 | CIF | Cr2 O4 Si | F d d d :2 | 5.665; 11.0863; 9.2742 90; 90; 90 | 582.456 | Miletich, R.; Nowak, M.; Seifert, F.; Angel, R. J.; Brandstatter, G. High-pressure crystal chemistry of chromous orthosilicate, Cr2SiO4. A single-crystal X-ray diffraction and electronic absorption spectroscopy study Sample: P = 5.303 GPa Physics and Chemistry of Minerals, 1999, 26, 446-459 |
| 9006644 | CIF | Cr2 O4 Si | F d d d :2 | 5.6512; 11.0598; 9.191 90; 90; 90 | 574.448 | Miletich, R.; Nowak, M.; Seifert, F.; Angel, R. J.; Brandstatter, G. High-pressure crystal chemistry of chromous orthosilicate, Cr2SiO4. A single-crystal X-ray diffraction and electronic absorption spectroscopy study Sample: P = 7.300 GPa Physics and Chemistry of Minerals, 1999, 26, 446-459 |
| 9006645 | CIF | Cr2 O4 Si | F d d d :2 | 5.6374; 11.0375; 9.1192 90; 90; 90 | 567.422 | Miletich, R.; Nowak, M.; Seifert, F.; Angel, R. J.; Brandstatter, G. High-pressure crystal chemistry of chromous orthosilicate, Cr2SiO4. A single-crystal X-ray diffraction and electronic absorption spectroscopy study Sample: P = 9.220 GPa Physics and Chemistry of Minerals, 1999, 26, 446-459 |
| 9006646 | CIF | Ca D4 O6 S | I 1 2/a 1 | 5.6769; 15.2074; 6.5277 90; 118.494; 90 | 495.279 | Knight, K. S.; Stretton, I. C.; Schofield, P. F. Temperature evolution between 50 K and 320 K of the thermal expansion tensor of gypsum derived from neutron powder diffraction data Sample: T = 320 K Physics and Chemistry of Minerals, 1999, 26, 477-483 |
| 9006647 | CIF | Al4 Co2 O18 Si5 | P 6/m c c | 9.841; 9.841; 9.372 90; 90; 120 | 786.034 | Knorr, K.; Meschke, M.; Winkler, B. Structural and magnetic properties of Co2Al4Si5O18 and Mn2Al4Si5O18 cordierite Physics and Chemistry of Minerals, 1999, 26, 521-529 |
| 9006648 | CIF | Al4 Mn2 O18 Si5 | C c c m | 17.128; 9.764; 9.147 90; 90; 90 | 1529.72 | Knorr, K.; Meschke, M.; Winkler, B. Structural and magnetic properties of Co2Al4Si5O18 and Mn2Al4Si5O18 cordierite Physics and Chemistry of Minerals, 1999, 26, 521-529 |
| 9006649 | CIF | Mg O | F m -3 m | 3.899; 3.899; 3.899 90; 90; 90 | 59.273 | Dubrovinsky, L. S.; Lazor, P.; Saxena, S. K.; Haggkvist, P.; Weber, H. P.; Le Bihan, T.; Hausermann, D. Study of laser heated iron using third generation synchrotron X-ray radiation facility with imaging plate at high pressures Sample: P = 61 GPa, T = 300 K Physics and Chemistry of Minerals, 1999, 26, 539-545 |
| 9006650 | CIF | Mg O | F m -3 m | 3.897; 3.897; 3.897 90; 90; 90 | 59.182 | Dubrovinsky, L. S.; Lazor, P.; Saxena, S. K.; Haggkvist, P.; Weber, H. P.; Le Bihan, T.; Hausermann, D. Study of laser heated iron using third generation synchrotron X-ray radiation facility with imaging plate at high pressures Sample: P = 61 GPa, T = 1550 K Physics and Chemistry of Minerals, 1999, 26, 539-545 |
| 9006651 | CIF | Ca O5 Si Sn | A 1 2/a 1 | 7.156; 8.875; 6.66 90; 113.38; 90 | 388.244 | Zhang, M.; Meyer, H. W.; Groat, L. A.; Bismayer, U.; Salje, E. K. H.; Adiwidjaja, G. An infrared spectroscopic and single-crystal X-ray study of malayaite, CaSnSiO5 Sample: T = 300 K Physics and Chemistry of Minerals, 1999, 26, 546-553 |
| 9006652 | CIF | Ca O5 Si Sn | A 1 2/a 1 | 7.16; 8.897; 6.672 90; 113.34; 90 | 390.244 | Zhang, M.; Meyer, H. W.; Groat, L. A.; Bismayer, U.; Salje, E. K. H.; Adiwidjaja, G. An infrared spectroscopic and single-crystal X-ray study of malayaite, CaSnSiO5 Sample: T = 450 K Physics and Chemistry of Minerals, 1999, 26, 546-553 |
| 9006653 | CIF | Ca O5 Si Sn | A 1 2/a 1 | 7.166; 8.903; 6.678 90; 113.39; 90 | 391.038 | Zhang, M.; Meyer, H. W.; Groat, L. A.; Bismayer, U.; Salje, E. K. H.; Adiwidjaja, G. An infrared spectroscopic and single-crystal X-ray study of malayaite, CaSnSiO5 Sample: T = 550 K Note: U33 for O1 has been altered by personal communication with authors, Dec 2003 Physics and Chemistry of Minerals, 1999, 26, 546-553 |
| 9006654 | CIF | Ca O5 Si Sn | A 1 2/a 1 | 7.173; 8.901; 6.683 90; 113.36; 90 | 391.714 | Zhang, M.; Meyer, H. W.; Groat, L. A.; Bismayer, U.; Salje, E. K. H.; Adiwidjaja, G. An infrared spectroscopic and single-crystal X-ray study of malayaite, CaSnSiO5 Sample: T = 670 K Physics and Chemistry of Minerals, 1999, 26, 546-553 |
| 9006655 | CIF | Ca O5 Si Sn | A 1 2/a 1 | 7.167; 8.912; 6.688 90; 113.36; 90 | 392.163 | Zhang, M.; Meyer, H. W.; Groat, L. A.; Bismayer, U.; Salje, E. K. H.; Adiwidjaja, G. An infrared spectroscopic and single-crystal X-ray study of malayaite, CaSnSiO5 Sample: T = 730 K Note: x-coordinate of O1 altered from the value reported Physics and Chemistry of Minerals, 1999, 26, 546-553 |
| 9006656 | CIF | Fe | P 63/m m c | 2.347; 2.347; 3.797 90; 90; 120 | 18.113 | Dubrovinsky, L. S.; Lazor, P.; Saxena, S. K.; Haggkvist, P.; Weber, H. P.; Le Bihan, T.; Hausermann, D. Study of laser heated iron using third generation synchrotron X-ray radiation facility with imaging plate at high pressures Sample: epsilon iron phase: P = 61 GPa, T = 300 K Physics and Chemistry of Minerals, 1999, 26, 539-545 |
| 9006657 | CIF | Fe | P 63/m m c | 2.346; 2.346; 3.808 90; 90; 120 | 18.15 | Dubrovinsky, L. S.; Lazor, P.; Saxena, S. K.; Haggkvist, P.; Weber, H. P.; Le Bihan, T.; Hausermann, D. Study of laser heated iron using third generation synchrotron X-ray radiation facility with imaging plate at high pressures Sample epsilon iron phase: P = 61 GPa, T = 1550 K Physics and Chemistry of Minerals, 1999, 26, 539-545 |
| 9006658 | CIF | Mn O | F m -3 m | 4.4459; 4.4459; 4.4459 90; 90; 90 | 87.878 | Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #1: P = 0.00 GPa at beginning of experiment Physics and Chemistry of Minerals, 1999, 26, 644-648 |
| 9006659 | CIF | Mn O | F m -3 m | 4.4464; 4.4464; 4.4464 90; 90; 90 | 87.907 | Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #1: P = 0.00 GPa at end of experiment Physics and Chemistry of Minerals, 1999, 26, 644-648 |
| 9006660 | CIF | Mn O | F m -3 m | 4.4397; 4.4397; 4.4397 90; 90; 90 | 87.511 | Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #1: P = 0.68 GPa Physics and Chemistry of Minerals, 1999, 26, 644-648 |
| 9006661 | CIF | Mn O | F m -3 m | 4.4326; 4.4326; 4.4326 90; 90; 90 | 87.091 | Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #1: P = 1.43 GPa Physics and Chemistry of Minerals, 1999, 26, 644-648 |
| 9006662 | CIF | Mn O | F m -3 m | 4.4254; 4.4254; 4.4254 90; 90; 90 | 86.668 | Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #1: P = 2.16 GPa Physics and Chemistry of Minerals, 1999, 26, 644-648 |
| 9006663 | CIF | Mn O | F m -3 m | 4.4169; 4.4169; 4.4169 90; 90; 90 | 86.169 | Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #1: P = 3.09 GPa Physics and Chemistry of Minerals, 1999, 26, 644-648 |
| 9006664 | CIF | Mn O | F m -3 m | 4.4106; 4.4106; 4.4106 90; 90; 90 | 85.801 | Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #1: P = 3.73 GPa Physics and Chemistry of Minerals, 1999, 26, 644-648 |
| 9006665 | CIF | Mn O | F m -3 m | 4.4042; 4.4042; 4.4042 90; 90; 90 | 85.428 | Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #1: P = 4.46 GPa Physics and Chemistry of Minerals, 1999, 26, 644-648 |
| 9006666 | CIF | Mn O | F m -3 m | 4.3963; 4.3963; 4.3963 90; 90; 90 | 84.969 | Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #1: P = 5.41 GPa Physics and Chemistry of Minerals, 1999, 26, 644-648 |
| 9006667 | CIF | Mn O | F m -3 m | 4.3891; 4.3891; 4.3891 90; 90; 90 | 84.552 | Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #1: P = 6.17 GPa Physics and Chemistry of Minerals, 1999, 26, 644-648 |
| 9006668 | CIF | Mn O | F m -3 m | 4.3846; 4.3846; 4.3846 90; 90; 90 | 84.293 | Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #1: P = 6.73 GPa Physics and Chemistry of Minerals, 1999, 26, 644-648 |
| 9006669 | CIF | Mn O | F m -3 m | 4.3792; 4.3792; 4.3792 90; 90; 90 | 83.982 | Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #1: P = 7.27 GPa Physics and Chemistry of Minerals, 1999, 26, 644-648 |
| 9006670 | CIF | Mn O | F m -3 m | 4.3726; 4.3726; 4.3726 90; 90; 90 | 83.602 | Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #1: P = 8.09 GPa Physics and Chemistry of Minerals, 1999, 26, 644-648 |
| 9006671 | CIF | Cd O | F m -3 m | 4.6963; 4.6963; 4.6963 90; 90; 90 | 103.578 | Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #1: P = 0.00 GPa at beginning of experiment Physics and Chemistry of Minerals, 1999, 26, 644-648 |
| 9006672 | CIF | Cd O | F m -3 m | 4.6969; 4.6969; 4.6969 90; 90; 90 | 103.618 | Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #1: P = 0.00 GPa at end of experiment Physics and Chemistry of Minerals, 1999, 26, 644-648 |
| 9006673 | CIF | Cd O | F m -3 m | 4.69; 4.69; 4.69 90; 90; 90 | 103.162 | Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #1: P = 0.68 GPa Physics and Chemistry of Minerals, 1999, 26, 644-648 |
| 9006674 | CIF | Cd O | F m -3 m | 4.6821; 4.6821; 4.6821 90; 90; 90 | 102.641 | Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #1: P = 1.43 GPa Physics and Chemistry of Minerals, 1999, 26, 644-648 |
| 9006675 | CIF | Cd O | F m -3 m | 4.6749; 4.6749; 4.6749 90; 90; 90 | 102.168 | Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #1: P = 2.16 GPa Physics and Chemistry of Minerals, 1999, 26, 644-648 |
| 9006676 | CIF | Cd O | F m -3 m | 4.6656; 4.6656; 4.6656 90; 90; 90 | 101.56 | Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #1: P = 3.09 GPa Physics and Chemistry of Minerals, 1999, 26, 644-648 |
| 9006677 | CIF | Cd O | F m -3 m | 4.6598; 4.6598; 4.6598 90; 90; 90 | 101.182 | Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #1: P = 3.73 GPa Physics and Chemistry of Minerals, 1999, 26, 644-648 |
| 9006678 | CIF | Cd O | F m -3 m | 4.6522; 4.6522; 4.6522 90; 90; 90 | 100.687 | Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #1: P = 4.46 GPa Physics and Chemistry of Minerals, 1999, 26, 644-648 |
| 9006679 | CIF | Cd O | F m -3 m | 4.6433; 4.6433; 4.6433 90; 90; 90 | 100.111 | Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #1: P = 5.41 GPa Physics and Chemistry of Minerals, 1999, 26, 644-648 |
| 9006680 | CIF | Cd O | F m -3 m | 4.6366; 4.6366; 4.6366 90; 90; 90 | 99.678 | Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #1: P = 6.17 GPa Physics and Chemistry of Minerals, 1999, 26, 644-648 |
| 9006681 | CIF | Cd O | F m -3 m | 4.6309; 4.6309; 4.6309 90; 90; 90 | 99.311 | Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #1: P = 6.73 GPa Physics and Chemistry of Minerals, 1999, 26, 644-648 |
| 9006682 | CIF | Cd O | F m -3 m | 4.6259; 4.6259; 4.6259 90; 90; 90 | 98.989 | Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #1: P = 7.27 GPa Physics and Chemistry of Minerals, 1999, 26, 644-648 |
| 9006683 | CIF | Cd O | F m -3 m | 4.619; 4.619; 4.619 90; 90; 90 | 98.547 | Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #1: P = 8.09 GPa Physics and Chemistry of Minerals, 1999, 26, 644-648 |
| 9006684 | CIF | Cd O | F m -3 m | 4.6953; 4.6953; 4.6953 90; 90; 90 | 103.512 | Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #2: P = 0.00 GPa at beginning of experiment Physics and Chemistry of Minerals, 1999, 26, 644-648 |
| 9006685 | CIF | Cd O | F m -3 m | 4.6956; 4.6956; 4.6956 90; 90; 90 | 103.532 | Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #2: P = 0.00 GPa at end of experiment Physics and Chemistry of Minerals, 1999, 26, 644-648 |
| 9006686 | CIF | Cd O | F m -3 m | 4.6833; 4.6833; 4.6833 90; 90; 90 | 102.72 | Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #2: P = 1.25 GPa Physics and Chemistry of Minerals, 1999, 26, 644-648 |
| 9006687 | CIF | Cd O | F m -3 m | 4.6708; 4.6708; 4.6708 90; 90; 90 | 101.9 | Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #2: P = 2.56 GPa Physics and Chemistry of Minerals, 1999, 26, 644-648 |
| 9006688 | CIF | Cd O | F m -3 m | 4.6595; 4.6595; 4.6595 90; 90; 90 | 101.162 | Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #2: P = 3.59 GPa Physics and Chemistry of Minerals, 1999, 26, 644-648 |
| 9006689 | CIF | Cd O | F m -3 m | 4.6502; 4.6502; 4.6502 90; 90; 90 | 100.558 | Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #2: P = 4.52 GPa Physics and Chemistry of Minerals, 1999, 26, 644-648 |
| 9006690 | CIF | Cd O | F m -3 m | 4.6438; 4.6438; 4.6438 90; 90; 90 | 100.143 | Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #2: P = 5.30 GPa Physics and Chemistry of Minerals, 1999, 26, 644-648 |
| 9006691 | CIF | Cd O | F m -3 m | 4.6371; 4.6371; 4.6371 90; 90; 90 | 99.71 | Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #2: P = 6.01 GPa Physics and Chemistry of Minerals, 1999, 26, 644-648 |
| 9006692 | CIF | Cd O | F m -3 m | 4.6217; 4.6217; 4.6217 90; 90; 90 | 98.72 | Zhang, J. Room temperature compressibilities of MnO and CdO: further examination of the role of cation type in bulk modulus systematics Sample from Run #2: P = 7.80 GPa Physics and Chemistry of Minerals, 1999, 26, 644-648 |
| 9006693 | CIF | Al4 Ca O11 Si2 | P 63/m m c | 5.4223; 5.4223; 12.7041 90; 90; 120 | 323.476 | Gautron, L.; Angel, R. J.; Miletich, R. Structural characterisation of the high-pressure phase CaAl4Si2O11 Note: Biso values altered to agree with the anisotropic values, as indicated by Ross Angel, March 2004 Physics and Chemistry of Minerals, 1999, 27, 47-51 |
| 9006694 | CIF | Ca O | F m -3 m | 4.815; 4.815; 4.815 90; 90; 90 | 111.632 | Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: PtRh10% heating wire, T = 298 K Physics and Chemistry of Minerals, 1999, 27, 103-111 |
| 9006695 | CIF | Ca O | F m -3 m | 4.819; 4.819; 4.819 90; 90; 90 | 111.91 | Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: PtRh10% heating wire, T = 407 K Physics and Chemistry of Minerals, 1999, 27, 103-111 |
| 9006696 | CIF | Ca O | F m -3 m | 4.827; 4.827; 4.827 90; 90; 90 | 112.469 | Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: PtRh10% heating wire, T = 500 K Physics and Chemistry of Minerals, 1999, 27, 103-111 |
| 9006697 | CIF | Ca O | F m -3 m | 4.833; 4.833; 4.833 90; 90; 90 | 112.889 | Fiquet, G.; Richet, P.; Montagnac, G. High-temperature thermal expansion of lime, periclase, corundum and spinel Sample: PtRh10% heating wire, T = 585 K Physics and Chemistry of Minerals, 1999, 27, 103-111 |
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