Please use this identifier to cite or link to this item: https://scidar.kg.ac.rs/handle/123456789/17455
Title: On the stability of quantum Brown rotator
Authors: Petrović, Igor
Jeknic-Dugic, Jasmina
Arsenijević, Momir
Dugic, Miroljub
Issue Date: 2019
Abstract: The standard quantum mechanical theory is insensitive to the number of particles. Therefore, description of the quantum many-particle systems remain an open issue in the foundations of the theory. To this end, additional complications come from the fact that the realistic systems are with the definite geometrical size and shape as well as exposed to the environmental influence. For this reason, only the toy-models bearing high degree of spatial symmetry for both the system as well as for its environment are used. The walk and progress in modern technology, such as nanotechnology, demands theoretical elaboration of the proper quantum models. In this regard, the large molecule (the natural as well as artificial) rotators represent one of the basic ’setups’ for the desired nano- and quantum-technological procedures [1, 2, 3]. The theoretical models are rather simplified, e.g. [4], and hardly of any use for certain realistic physical situations. Nevertheless, to this end, an elaborate approach and the basic results have recently been put forward [5, 6]. The propeller-shaped large-molecules rotators can be modeled by a single (rotational) degree of freedom as a rigid system that is open to the environmental influence and can be modelled by the so-called Caldeira-Leggett master equation [7]. The model argues for the linear dependence of both the moment of inertia and the damping factor on the number N of blades of the propeller [5, 6]. A number of interesting theoretical predictions regarding stability of rotation are obtained exhibiting nontrivial (including nonlinear) dependence on the N. Interestingly, in effect, some kind of optimization, which is characteristic for the macroscopic classical engineering, is needed for the proper control of the molecular rotators even for the one-dimensional model. The desired quantum optimal-control methods are in infancy yet.
URI: https://scidar.kg.ac.rs/handle/123456789/17455
Type: conferenceObject
Appears in Collections:Faculty of Science, Kragujevac

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