Characterization of Rare Events in Molecular Dynamics

Characterization of Rare Events in Molecular Dynamics

A good deal of molecular dynamics simulations aims at predicting and quantifying rare events, such as the folding of a protein or a phase transition. Simulating rare events is often prohibitive, especially if the equations of motion are high-dimensional, as is the case in molecular dynamics. Various...

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Veröffentlicht in:Entropy (Basel, Switzerland) Switzerland), 2014-01, Vol.16 (1), p.350-376
Hauptverfasser: Hartmann, Carsten, Banisch, Ralf, Sarich, Marco, Badowski, Tomasz, Schütte, Christof
Format: Artikel
Sprache:eng
Schlagworte:
Algorithms
change of measure
Computer simulation
cumulant generating function
dynamic programming
Entropy
Molecular dynamics
Optimal control
optimal pathways
rare events
Sampling
Statistical mechanics
Statistics
stochastic control
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Zusammenfassung:A good deal of molecular dynamics simulations aims at predicting and quantifying rare events, such as the folding of a protein or a phase transition. Simulating rare events is often prohibitive, especially if the equations of motion are high-dimensional, as is the case in molecular dynamics. Various algorithms have been proposed for efficiently computing mean first passage times, transition rates or reaction pathways. This article surveys and discusses recent developments in the field of rare event simulation and outlines a new approach that combines ideas from optimal control and statistical mechanics. The optimal control approach described in detail resembles the use of Jarzynski's equality for free energy calculations, but with an optimized protocol that speeds up the sampling, while (theoretically) giving variance-free estimators of the rare events statistics. We illustrate the new approach with two numerical examples and discuss its relation to existing methods.
ISSN:1099-4300
1099-4300
DOI:10.3390/e16010350