Ab initio elasticity of FeS2 pyrite from 0 to 135 GPa

被引:0
作者
Y. Le Page
J. R. Rodgers
机构
[1] ICPET,
[2] National Research Council of Canada,undefined
[3] Toth Information Systems Inc.,undefined
来源
Physics and Chemistry of Minerals | 2005年 / 32卷
关键词
Pyrite; High pressure; Elastic tensor; Speed of sound; Equation of state; Ab initio;
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学科分类号
摘要
Polynomial expressions for the elastic tensor coefficients, the bulk, the shear and Young’s moduli, the speed of sound for longitudinal and transverse waves, the equation of state and the x coordinate of the sulfur atom in pyrite are reported based on ab initio calculations in the range of 0–135 GPa. Comparison with published experimental data indicates good agreement for the equation of state and for values at 0 GPa as well as reasonable agreement for first derivatives. All modeling and interpretation was performed with Materials Toolkit v.2.0 and all ab initio computations with VASP.
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页码:564 / 567
页数:3
相关论文
共 40 条
[1]  
Ahrens TJ(1987)Pyrite: shock compression, isentropic release, and the composition of the Earth’s core J Geophys Res 92 10363-10375
[2]  
Jeanloz R(1963)A simplified method for calculating the Debye temperature from elastic constants J Phys Chem Solids 24 909-917
[3]  
Anderson OL(1949)Linear compression to 30,000 kg/cm Proc Am Acad Arts Sci 77 189-234
[4]  
Bridgman PW(1969), including relatively incompressible substances Acta Chem Scand 23 2186-2188
[5]  
Brostigen G(1966)Redetermined crystal structure of FeS Sol State Phys 19 135-229
[6]  
Kjekshus A(1993) (pyrite) Phys Rev B 48 13115-13118
[7]  
Drickamer HG(1994)X-ray diffraction studies of the lattice parameters of solids under very high pressure Phys Rev B 49 14251-14269
[8]  
Lynch RW(1999)Ab initio molecular dynamics for open-shell transition metals Phys Rev B 59 1758-1775
[9]  
Clendenen RL(2005)Ab initio molecular dynamics simulation of the liquid-metal-amorphous-semiconductor transition in germanium J Appl Cryst 38 697-705
[10]  
Perez-Albuene EA(2002)From ultrasoft pseudopotentials to the projector-augmented-wave method Phys Rev B 65 104104-357
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