Open AccessStatistical coarse-graining of molecular dynamics into peridynamics.
Author(s) -
Stewart Silling,
Richard B. Lehoucq
Publication year - 2007
Publication title -
physical review letters
Language(s) - English
Resource type - Reports
DOI - 10.2172/922771
Subject(s) - peridynamics , continuum mechanics , continuum hypothesis , molecular dynamics , statistical physics , statistical mechanics , granularity , classical mechanics , dynamics (music) , representation (politics) , mechanics , physics , computer science , quantum mechanics , acoustics , political science , law , operating system , politics
This paper describes an elegant statistical coarse-graining of molecular dynamics at finite temperature into peridynamics, a continuum theory. Peridynamics is an efficient alternative to molecular dynamics enabling dynamics at larger length and time scales. In direct analogy with molecular dynamics, peridynamics uses a nonlocal model of force and does not employ stress/strain relationships germane to classical continuum mechanics. In contrast with classical continuum mechanics, the peridynamic representation of a system of linear springs and masses is shown to have the same dispersion relation as the original spring-mass system
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