A fast Variational Gaussian Wave-packet method: Size-induced structural transitions in large neon clusters

Abstract

The Variational Gaussian wavepacket (VGW) method is an alternative to Path Integral Monte-Carlo (PIMC) for the computation of thermodynamic properties of many-body systems at thermal equilibrium. It provides a direct access to the thermal density matrix and is particularly efficient for Monte-Carlo approaches, as for an N-body system it operates in a non-inflated 3N dimensional configuration space. Here we greatly accelerate the VGW method by retaining only the relevant short-range correlations in the (otherwise full) 3N× 3N Gaussian width matrix without sacrificing the accuracy of the fully-coupled VGW method. This results in the reduction of the original O(N3) scaling to O(N2). The Fast-VGW method is then applied to quantum Lennard-Jones clusters with sizes up to N=6500 atoms. Following Doye and Calvo [JCP 116, 8307 (2002)] we study the competition between the icosahedral and decahedral structural motifs in NeN clusters as a function of N.