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Computational Methods in Coupled Electron–Ion Monte Carlo Simulations

✍ Scribed by Carlo Pierleoni; David M. Ceperley

Publisher: John Wiley and Sons
Year: 2005
Tongue: English
Weight: 130 KB
Volume: 6
Category: Article
ISSN: 1439-4235
DOI: 10.1002/cphc.200400587

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✦ Synopsis

Abstract

In the last few years, we have been developing a Monte Carlo simulation method to cope with systems of many electrons and ions in the Born–Oppenheimer approximation: the coupled electron–ion Monte Carlo method (CEIMC). Electronic properties in CEIMC are computed by quantum Monte Carlo rather than by density functional theory (DFT) based techniques. CEIMC can, in principle, overcome some of the limitations of the present DFT‐based ab initio dynamical methods. The new method has recently been applied to high‐pressure metallic hydrogen. Herein, we present a new sampling algorithm that we have developed in the framework of the reptation quantum Monte Carlo method chosen to sample the electronic degrees of freedom, thereby improving its efficiency. Moreover, we show herein that, at least for the case of metallic hydrogen, variational estimates of the electronic energies lead to an accurate sampling of the proton degrees of freedom.

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