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稀薄气体中基于热力学和粘度的有效相互作用硬度

Effective hardness of interaction from thermodynamics and viscosity in dilute gases.

作者信息

Bell Ian H

机构信息

Applied Chemicals and Materials Division, National Institute of Standards and Technology, Boulder, Colorado 80305, USA.

出版信息

J Chem Phys. 2020 Apr 30;152(16):164508. doi: 10.1063/5.0007583.

DOI:10.1063/5.0007583
PMID:32357769
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7688069/
Abstract

The hardness of the effective inverse power law (IPL) potential, which can be obtained from thermodynamics or collision integrals, can be used to demonstrate similarities between thermodynamic and transport properties. This link is investigated for systems of increasing complexity (i.e., the EXP, square-well, Lennard-Jones, and Stockmayer potentials; ab initio results for small molecules; and rigid linear chains of Lennard-Jones sites). These results show that while the two approaches do not yield precisely the same values of effective IPL exponent, their qualitative behavior is intriguingly similar, offering a new way of understanding the effective interactions between molecules, especially at high temperatures. In both approaches, the effective hardness is obtained from a double-logarithmic temperature derivative of an effective area.

摘要

有效逆幂律(IPL)势的硬度可从热力学或碰撞积分中获得,它可用于证明热力学性质和输运性质之间的相似性。本文针对复杂度不断增加的系统(即EXP势、方阱势、 Lennard-Jones势和Stockmayer势;小分子的从头算结果;以及Lennard-Jones位点的刚性线性链)研究了这种联系。这些结果表明,虽然两种方法得到的有效IPL指数值并不完全相同,但其定性行为却惊人地相似,为理解分子间的有效相互作用提供了一种新方法,尤其是在高温下。在这两种方法中,有效硬度都是从有效面积的双对数温度导数中获得的。

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