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Autor principal: Roy, Projesh Kumar
Formato: Preprint
Publicado: 2025
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Acceso en línea:https://arxiv.org/abs/2505.15474
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author Roy, Projesh Kumar
author_facet Roy, Projesh Kumar
contents This letter highlights the entropy exchange phenomenon in a coupled binary inter-correlating system following Haldane's non-linear statistical correlation. A unique coupling between a classical and a quantum-like system at the marginal distribution is observed. It is shown that the quantum nature of a system can arise without any self-correlation. Extending this idea, an enhanced sampling method in molecular dynamics simulation is postulated where a classical system is forced to show quantum-like behavior with the help of an entropy-bath. An entropy-bath exchanges entropy with the system to scale the potential energy distribution of the system, so that a probability upper bound at each energy level is maintained. An algorithm to implement the entropy-bath accelerated molecular dynamics simulation is discussed. Using low temperature vitreous silica as an example, the capability of such an algorithm to greatly improve sampling of the potential energy landscape under equilibrium conditions for kinetically arrested systems is highlighted.
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spellingShingle Entropy exchange in an inter-correlating binary quasi-classical system: Concept of entropy-bath accelerated molecular dynamics
Roy, Projesh Kumar
Statistical Mechanics
This letter highlights the entropy exchange phenomenon in a coupled binary inter-correlating system following Haldane's non-linear statistical correlation. A unique coupling between a classical and a quantum-like system at the marginal distribution is observed. It is shown that the quantum nature of a system can arise without any self-correlation. Extending this idea, an enhanced sampling method in molecular dynamics simulation is postulated where a classical system is forced to show quantum-like behavior with the help of an entropy-bath. An entropy-bath exchanges entropy with the system to scale the potential energy distribution of the system, so that a probability upper bound at each energy level is maintained. An algorithm to implement the entropy-bath accelerated molecular dynamics simulation is discussed. Using low temperature vitreous silica as an example, the capability of such an algorithm to greatly improve sampling of the potential energy landscape under equilibrium conditions for kinetically arrested systems is highlighted.
title Entropy exchange in an inter-correlating binary quasi-classical system: Concept of entropy-bath accelerated molecular dynamics
topic Statistical Mechanics
url https://arxiv.org/abs/2505.15474