Ab initio anharmonic thermodynamic properties of cubic CaSiO3 perovskite

Zhen Zhang, R. Wentzcovitch
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引用次数: 4

Abstract

We present an $\textit{ab initio}$ study of the thermodynamic properties of cubic CaSiO$_3$ perovskite (CaPv) over the pressure and temperature range of the Earth's lower mantle. We compute the anharmonic phonon dispersions throughout the Brillouin zone by utilizing the phonon quasiparticle approach, which characterizes the intrinsic temperature dependence of phonon frequencies and, in principle, captures full anharmonicity. Such temperature-dependent phonon dispersions are used to calculate $\textit{ab initio}$ free energy in the thermodynamic limit ($N \rightarrow \infty$) within the framework of the phonon gas model. Accurate free energy calculations enable us to investigate cubic CaPv's thermodynamic properties and thermal equation of state, where anharmonic effects are demonstrated. The present methodology provides an important theoretical approach for exploring phase boundaries, thermodynamic, and thermoelastic properties of strongly anharmonic materials at high pressures and temperatures.
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立方CaSiO3钙钛矿的从头算非调和热力学性质
我们提出了一项$\textit{ab initio}$研究立方CaSiO $_3$钙钛矿(CaPv)在地球下地幔压力和温度范围内的热力学性质。我们利用声子准粒子方法计算了整个布里渊区的非调和声子色散,该方法表征了声子频率的固有温度依赖性,并且原则上捕获了完全的非调和性。这种依赖温度的声子色散被用来计算声子气体模型框架内热力学极限($N \rightarrow \infty$)下的$\textit{ab initio}$自由能。精确的自由能计算使我们能够研究立方CaPv的热力学性质和热状态方程,其中证明了非调和效应。本方法为探索强非调和材料在高压和高温下的相边界、热力学和热弹性特性提供了重要的理论途径。
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