Equilibrium Sampling From Nonequilibrium Dynamics

A. Brünger; C. Jarzynski; C. Jarzynski; D. A. Hendrix; E. A. Carter; E. Marinari; F. M. Ytreberg; G. Hummer; G. M. Torrie; Gabriel Stoltz; H. Oberhofer; J. G. Kirkwood; J. M. Rickman; K. Hukushima; Mathias Rousset; P. Moral Del; R. Assaraf; R. Neal; R. Zwanzig; S. Kirkpatrick; S. Sun; Y. Iba

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Equilibrium Sampling From Nonequilibrium Dynamics

Authors: A. Brünger
C. Jarzynski
C. Jarzynski
D. A. Hendrix
E. A. Carter
E. Marinari
F. M. Ytreberg
G. Hummer
G. M. Torrie
Gabriel Stoltz
H. Oberhofer
J. G. Kirkwood
J. M. Rickman
K. Hukushima
Mathias Rousset
P. Moral Del
R. Assaraf
R. Neal
R. Zwanzig
S. Kirkpatrick
S. Sun
Y. Iba
Publication date: 16 November 2005
Publisher: 'Springer Science and Business Media LLC'
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Abstract

We present some applications of an Interacting Particle System (IPS) methodology to the field of Molecular Dynamics. This IPS method allows several simulations of a switched random process to keep closer to equilibrium at each time, thanks to a selection mechanism based on the relative virtual work induced on the system. It is therefore an efficient improvement of usual non-equilibrium simulations, which can be used to compute canonical averages, free energy differences, and typical transitions paths

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