Monte Carlo Simulation for Spheres with Two Length Scales

E.V.R.Chan

arXiv:cond-mat/0406231·cond-mat.stat-mech·May 23, 2007

Monte Carlo Simulation for Spheres with Two Length Scales

E.V.R.Chan

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Open Access

TL;DR

This paper uses Monte Carlo simulations to study spheres with two length scales, analyzing their structural properties at different conditions to understand phase behavior, with further work needed for comprehensive phase diagram determination.

Contribution

It introduces Monte Carlo calculations for spheres with two length scales and compares their radial distribution functions across various conditions.

Findings

01

Differences in radial distribution functions observed.

02

Further calculations needed for phase diagram insights.

Abstract

Canonical ensemble Monte Carlo calculations have been carried out on spheres with two different length scales. Radial distribution functions at various temperatures and densities were computed and compared. Preliminary results indicate that there are differences but because these may be subtle, more calculations including self-diffusion coefficient, heat capacity, etc. would be necessary in order to determine a phase diagram.

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Taxonomy

TopicsComputational Geometry and Mesh Generation · 3D Shape Modeling and Analysis