Equation of state of a seven-dimensional hard-sphere fluid.Percus-Yevick teory and molecular-dynamics simulations

Miguel Robles; Mariano Lopez de Haro; Andres Santos

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Equation of state of a seven-dimensional hard-sphere fluid.Percus-Yevick teory and molecular-dynamics simulations

机译：七维硬球流体的状态方程Percus-Yevick理论和分子动力学模拟

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Following the work of Leutheusser [Physica A 127,667 (1984)],the solution to the Percus-Yevick equation for a seven-dimensional hard-sphere fluid is explicitly found.This allows the derivation of the equation of state for the fluid taking both the virial and the compressibility routes.An analysis of the virial coefficients and the determination of the radius of convergence of the virial series are carried out.Molecular-dynamics simulations of the same system are also performed and a comparison between the simulation results for the compressibility factor and theoretical expressions for the same quantity is presented.

机译：遵循Leutheusser的工作[Physica A 127,667（1984）]，明确找到了7维硬球流体的Percus-Yevick方程的解。这允许导出流体的状态方程。进行了维里系数的分析和维列级数的收敛半径的确定，并对同一系统进行了分子动力学模拟，并对压缩系数的模拟结果进行了比较并给出了相同数量的理论表达式。

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《The Journal of Chemical Physics》 |2004年第19期|共10页
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Miguel Robles; Mariano Lopez de Haro; Andres Santos;
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Equation of state of a seven-dimensional hard-sphere fluid.Percus-Yevick teory and molecular-dynamics simulations

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