2011
DOI: 10.1103/physreva.83.062117
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Peculiarities of parabolic-barrier penetrability and thermal decay rate with the quantum diffusion approach

Abstract: With the quantum diffusion approach, the passing probability through the parabolic barrier is examined in the limit of linear coupling in the momentum between the collective subsystem and environment. The dependencies of the penetrability on time, energy, and the coupling strength between the interacting subsystems are studied. The quasistationary thermal decay rate from a metastable state is considered in the cases of linear couplings both in the momentum and in the coordinate.

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Cited by 16 publications
(15 citation statements)
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“…For the sake of simplicity, in further analytical calculations we use the dissipative kernels (14). For the average occupation number n(t), one can obtain (see Appendix A):…”
Section: B Fluctuation-dissipation Relationsmentioning
confidence: 99%
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“…For the sake of simplicity, in further analytical calculations we use the dissipative kernels (14). For the average occupation number n(t), one can obtain (see Appendix A):…”
Section: B Fluctuation-dissipation Relationsmentioning
confidence: 99%
“…We use the Langevin approach [10][11][12][13][14] which is widely applied to find the effects of fluctuations and dissipations in macroscopical systems. The Langevin method in the kinetic theory significantly simplifies the calculation of nonequilibrium quantum and thermal fluctuations and provides a clear picture of the dynamics.…”
Section: Introductionmentioning
confidence: 99%
“…[20], the value of β i depends on the four roots and the limits at α = 0 or g = 0 are not trivial. One can show that, at α = 0, Eqs.…”
Section: Modelmentioning
confidence: 98%
“…[20], in Sec. II we briefly derive the quantum and non-Markovian Langevin equations for the collective coordinate and canonically conjugated momentum for the case of general linear coupling.…”
Section: Introductionmentioning
confidence: 98%
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