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Entropy Production And Volume Contraction In Thermostated Hamiltonian Dynamics, John D. Ramshaw
Entropy Production And Volume Contraction In Thermostated Hamiltonian Dynamics, John D. Ramshaw
Physics Faculty Publications and Presentations
Patra et al. [Int. J. Bifurcat. Chaos 26, 1650089 (2016)] recently showed that the time-averaged rates of entropy production and phase-space volume contraction are equal for several different molecular dynamics methods used to simulate nonequilibrium steady states in Hamiltonian systems with thermostated temperature gradients. This equality is a plausible statistical analog of the second law of thermodynamics. Here we show that those two rates are identically equal in a wide class of methods in which the thermostat variables z are determined by ordinary differential equations of motion (i.e., methods of the Nosé-Hoover or integral feedback control type). This …