Ruppeiner G, Sahay A, Sarkar T, Sengupta G
Division of Natural Sciences, New College of Florida, 5800 Bay Shore Road, Sarasota, Florida 34243-2109, USA.
Phys Rev E Stat Nonlin Soft Matter Phys. 2012 Nov;86(5 Pt 1):052103. doi: 10.1103/PhysRevE.86.052103. Epub 2012 Nov 26.
A microscopic characterization, based on the thermodynamic curvature R, is proposed for first-order liquid-gas phase transitions. Near the critical point, where R is proportional to the correlation volume ξ(3), we propose that R takes the same value in the coexisting phases. This proposal allows a determination of the liquid-gas coexistence curve with no use of the problematic Maxwell equal area construction. Furthermore, |R| ~ ξ(3) allows a direct determination of the Widom line in the supercritical regime. We illustrate with input from the van der Waals model and the National Institute of Standards and Technology Chemistry WebBook.
针对一级液-气相变,提出了一种基于热力学曲率R的微观表征方法。在临界点附近,R与关联体积ξ(3)成正比,我们提出R在共存相中取相同的值。这一方法无需使用有问题的麦克斯韦等面积构造就能确定液-气共存曲线。此外,|R| ~ ξ(3)使得在超临界区域能直接确定维登线。我们以范德瓦尔斯模型和美国国家标准与技术研究院化学网络手册的数据为例进行说明。
