Physics – Condensed Matter – Statistical Mechanics
Scientific paper
2006-05-16
Physics
Condensed Matter
Statistical Mechanics
26 pages, 4 figures, 3 tables
Scientific paper
The hard sphere system plays a basic role in condensed matter physics and related fields, and equation of state (EoS) is the ultimate solution to its thermodynamic properties (1-3). Dozens of EoSs have been proposed since van der Waals historic work and many reliable EoSs are available for the stable fluid region (3). For the metstable region, all available EoSs are not accurate enough for various applications. It has been considered impossible to develop an analytical EoS for the entire stable and metstable region 4. By virtue of a potential energy landscape analysis combined with the Woodcock type EoS (2,5), here we show that a fairly simple analytical equation can be obtained to reproduce the compressibility of the entire region with high accuracy. Therefore, all four amorphous states of matter, gas, liquid, supercooled liquid and glass, can be represented with a single EoS. Examples are given to show that highly accurate EoS is necessary for applications in thermodynamic property or liquid structure predictions. By using conventional approaches, such as appending an attractive term of van der Waals type (6) or using the equation within the framework of perturbation theory (1,7), it can be extended to an EoS for various real systems, including supercooled liquids and glasses.
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