Please use this identifier to cite or link to this item: https://scidar.kg.ac.rs/handle/123456789/11206
Title: Dynamical stability of the one-dimensional rigid Brownian rotator: The role of the rotator's spatial size and shape
Authors: Jeknić-Dugić J.
Petrović, Ivica
Arsenijević, Momir
Dugic, Miroljub
Issue Date: 2018
Abstract: © 2018 IOP Publishing Ltd. We investigate dynamical stability of a single propeller-like shaped molecular cogwheel modelled as the fixed-axis rigid rotator. In the realistic situations, rotation of the finite-size cogwheel is subject to the environmentally-induced Brownian-motion effect that we describe by utilizing the quantum Caldeira-Leggett master equation. Assuming the initially narrow (classical-like) standard deviations for the angle and the angular momentum of the rotator, we investigate the dynamics of the first and second moments depending on the size, i.e. on the number of blades of both the free rotator as well as of the rotator in the external harmonic field. The larger the standard deviations, the less stable (i.e. less predictable) rotation. We detect the absence of the simple and straightforward rules for utilizing the rotator's stability. Instead, a number of the size-related criteria appear whose combinations may provide the optimal rules for the rotator dynamical stability and possibly control. In the realistic situations, the quantum-mechanical corrections, albeit individually small, may effectively prove non-negligible, and also revealing subtlety of the transition from the quantum to the classical dynamics of the rotator. As to the latter, we detect a strong size-dependence of the transition to the classical dynamics beyond the quantum decoherence process.
URI: https://scidar.kg.ac.rs/handle/123456789/11206
Type: article
DOI: 10.1088/1361-648X/aab9ef
ISSN: 0953-8984
SCOPUS: 2-s2.0-85046286772
Appears in Collections:Faculty of Science, Kragujevac

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