Bifurcation and chaos in two-dimensional systems of quantum dots and quantum molecules
Loading...
Date
Journal Title
Journal ISSN
Volume Title
Publisher
Publishing House of the KarSU named after E.A.Buketov
Abstract
Methods developed in the approach to quantum tunneling with dissipation are applied to a dissipative tunneling in the systems of coupled quantum molecules. We study two-dimensional (2D) effects of cleavage and thermally controlled extrema in tunnel probability function on asymmetry parameter; thermally dependent blockage effect; effect of edge temperature in the case when radii of quantum dots (QD) in quantum molecules (QM) are bigger than radii of final state QD; bifurcations in the temperature dependence and in coupling constant in interacting QM systems. 2D tunnel transitions are chaotic in the case of antiparallel 2D transfers and this chaotization occurs as a phase transition of second order, whereas in the case of parallel 2D transfers the bifurcations occur as a phase transition of first order.
Description
Citation
Aringazin A.K. Bifurcation and chaos in two-dimensional systems of quantum dots and quantum molecules /A.K. Aringazin, V.D. Krevchik, M.B. Semenov //Eurasian Physical Technical Journal.-2009.-Vol.6.-No1(11).-P.57-61