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杨-杨反常与共存直径:非对称流体的模拟

Yang-Yang anomalies and coexistence diameters: simulation of asymmetric fluids.

作者信息

Kim Young C

机构信息

Institute for Physical Science and Technology, University of Maryland, College Park, MD 20742, USA.

出版信息

Phys Rev E Stat Nonlin Soft Matter Phys. 2005 May;71(5 Pt 1):051501. doi: 10.1103/PhysRevE.71.051501. Epub 2005 May 20.

DOI:10.1103/PhysRevE.71.051501
PMID:16089536
Abstract

A general method for estimating the Yang-Yang ratio, R(mu) , of a model fluid via Monte Carlo simulations is presented on the basis of data for a hard-core square-well (HCSW) fluid and the restricted primitive model (RPM) electrolyte. The isothermal minima of Q(L)(triple bond)<m(2)>2L/<m(4)>L scaling are evaluated at T(c) in an LxLxL box where m=rho-L is the density fluctuation. The "complete" finite-size scaling theory for the Q(+/-)(min) (T(c);L) incorporates pressure mixing in the scaling fields, thereby allowing for a Yang-Yang anomaly. It yields a dominant term in the asymmetry, Q(+)(min)-Q(-)(min) , varying as L(-beta/nu) with an amplitude proportional to the crucial pressure-mixing coefficient, j(2) . The reliably known critical order-parameter distribution for (d=3) Ising systems then enables one to estimate j(2) , thereby yielding R(mu) , from the Q minima together with information on the nonuniversal amplitudes for the order parameter and the susceptibility. The detailed analysis needed to estimate j(2) for an HCSW fluid and the RPM is presented. Furthermore, the Q-minima below T(c) can also provide the coexistence-curve diameters, rho(diam) (T) (triple bond)1/2 (rho(+) + rho(-)) , very close to T(c) for both models: here rho +/-(T) are the densities of the coexisting liquid and gas phases. The recently developed recursive scaling algorithm for Deltarho(infinity) (T) (triple bond)rho(+)-rho(-) is adapted to investigate the corresponding universal scaling functions. The two extremal forms of these scaling functions are computed with the aid of the exactly soluble decorated lattice-gas model. The critical densities for the RPM and HCSW fluid found via this route are consistent with previous estimates obtained from the data above T(c) ; the magnitudes of the |T- T(c)|(2beta) and |T- T(c)|(1-alpha) corrections to rho(diam)(T) are estimated.

摘要

基于硬核方阱(HCSW)流体和受限原始模型(RPM)电解质的数据,提出了一种通过蒙特卡罗模拟估算模型流体的杨 - 杨比(R(\mu))的通用方法。在一个(L×L×L)的盒子中,于(T_c)处评估(Q(L)(\equiv\langle m^2\rangle2L / \langle m^4\rangle L))标度的等温极小值,其中(m = \rho - \langle\rho\rangle_L)是密度涨落。(Q_{(±)}(min)(T_c;L))的“完整”有限尺寸标度理论在标度场中纳入了压力混合,从而考虑到杨 - 杨反常。它在不对称性(Q_{(+)}(min) - Q_{(-)}(min))中产生一个主导项,其随(L^{-\beta / \nu})变化,幅度与关键压力混合系数(j(2))成正比。对于(d = 3)的伊辛系统,可靠已知的临界序参量分布随后使人们能够从(Q)极小值以及关于序参量和磁化率的非普适幅度的信息中估算(j(2)),进而得出(R(\mu))。给出了估算HCSW流体和RPM的(j(2))所需的详细分析。此外,低于(T_c)的(Q)极小值还可以为两种模型提供非常接近(T_c)的共存曲线直径(\rho_{(diam)}(T)(\equiv\frac{1}{2}(\rho_{(+)} + \rho_{(-)}))):这里(\rho_{±}(T))是共存液相和气相的密度。最近为(\Delta\rho_{(\infty)}(T)(\equiv\rho_{(+)} - \rho_{(-)}))开发的递归标度算法被用于研究相应的普适标度函数。借助完全可解的装饰晶格气体模型计算了这些标度函数的两种极值形式。通过此途径找到的RPM和HCSW流体的临界密度与先前从(T_c)以上数据获得的估计值一致;估算了(\rho_{(diam)}(T))的(\vert T - T_c\vert^{2\beta})和(\vert T - T_c\vert^{1 - \alpha})修正的幅度。

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