通过直接求解分馏函数计算 bcc Bi 的静水状态方程

Metals Pub Date : 2024-05-20 DOI:10.3390/met14050601
Yue-Yue Tian, Bo-Yuan Ning, Hui-Fen Zhang, Xi-Jing Ning
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引用次数: 0

摘要

体心立方铋(Bi)被认为是一种诱人的压力标记,因此,人们非常希望掌握其精确的状态方程(EOS)。然而,以往的实验 EOS 存在很大差异。在本研究中,通过直接积分法(DIA)求解分区函数,从理论上获得了高达 300 GPa 的 EOS。计算结果几乎再现了 75 GPa 以下的流体静力学实验测量值,并且随着压力的增加,与测量值的偏差逐渐变大。基于平衡态的集合理论,DIA 的工作精度很高,尤其是在高压条件下,因此这项工作中提出的静力学 EOS 预计将成为可靠的压力标准。
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Hydrostatic Equation of State of bcc Bi by Directly Solving the Partition Function
Body−centered cubic bismuth (Bi) is considered to be an enticing pressure marker, and, therefore, it is highly desirable to command its accurate equation of state (EOS). However, signifi­cant discrepancies are noted among the previous experimental EOSs. In the present work, an EOS of up to 300 GPa is theoretically obtained by solving the partition function via a direct integral ap­proach (DIA). The calculated results nearly reproduce the hydrostatic experimental measurements below 75 GPa, and the deviations from the measurements gradually become larger with increasing pressure. Based on the ensemble theory of equilibrium state, the DIA works with high precision particularly in high−pressure conditions, so the hydrostatic EOS presented in this work is expected to be a reliable pressure standard.
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