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Elasticity and Thermodynamic Properties of EuS Related to Phase Transition
Qiang Liu, Feng Peng*
College of Physics and Electronic Information, Luoyang Normal University, Luoyang 471022, China
Abstract:
First-principles calculations of the crystal structures, phase transition, and elastic proper-ties of EuS have been carried out with the plane-wave pseudopotential density functional theory method. The calculated values are in very good agreement with experimental data as well as some of the existing model calculations. The dependence of the elastic constants, the aggregate elastic modulus, and the elastic anisotropy on pressure have been investigated. Moreover, the variation of the Poisson's ratio, Debye temperature, and the compressional and shear elastic wave velocities with pressure have been investigated for the first time. Through the quasi-harmonic Debye model, the thermal expansions, heat capacities, Grneisen param-eters and Debye temperatures dependence on the temperature and pressure are obtained in the pressure range from 0 GPa to 60 GPa and temperature range from 0 K to 800 K.
Key words:  EuS, First-principles, Pressure effect, Thermodynamic properties
FundProject:
EuS高压相变及其弹性和热力学性质
刘强, 彭枫*
洛阳师范学院物理与电子信息学院,洛阳471022
摘要:
采用平面波赝势密度泛函理论,利用第一性原理的方法研究了EuS的晶体结构、高压相变以及弹性性质.计算结果和实验值以及前人利用不同计算模型得到的理论值相吻合.研究了EuS的弹性常数、弹性模量和弹性的各向异性等力学性质随压力变化的趋势.同时研究了泊松比、德拜温度及纵波和横波的弹性波速随压力的变化趋势.基于德拜模型,进而研究了EuS在0~800 K和0~60 GPa下相变前后的热膨胀系数、热熔、Grüneisen参数等热力学性质.
关键词:  EuS,第一性原理,高压,热力学性质
DOI:10.1063/1674-0068/27/04/387-393
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