Kramers theory in the relaxation dynamics of a tilted asymmetric periodic potential.

Kramers theory in the relaxation dynamics of a tilted asymmetric periodic potential. Research Abstract Details 

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Kramers theory in the relaxation dynamics of a tilted asymmetric periodic potential. Abstract Text:

Takaaki Monnai,Ayumu Sugita,Katsuhiro Nakamura,Takaaki Monnai,Ayumu Sugita,Katsuhiro Nakamura,

We investigate the low-temperature relaxation dynamics toward a nonequilibrium steady state in a tilted asymmetric periodic potential based on the WKB analysis and the numerical diagonalization of the Fokker-Planck operator. Due to the tilting, the Fokker-Planck operator, and thus the Schrödinger operator associated with it, are non-Hermitian. Therefore, we evaluate the decay rate based on the WKB analysis both for real- and complex-valued eigenvalues. In the tilting range where the double-humped barrier exists, the decay rate is shown to obey a law which is a subtle nonequilibrium extension of the so-called Kramers escape rate. The decay rate for the single-humped barrier case is analyzed as well. The large tilting regime where the barriers no longer exist is also investigated.

Kramers theory in the relaxation dynamics of a tilted asymmetric periodic potential. Publishing Authors By Initials

T Monnai,A Sugita,K Nakamura,T Monnai,A Sugita,K Nakamura,

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Kramers theory in the relaxation dynamics of a tilted asymmetric periodic potential. Journal Published:

PUBLICATION TYPE: Research Support, Non-U.S. Gov

Journal: Physical review. E, Statistical, nonlinear, and so

VOLUME: 76

Page Numbers: 031140

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ISSN: 1539-3755

DAY: 28

MONTH: 09

YEAR: 2007

Kramers theory in the relaxation dynamics of a tilted asymmetric periodic potential. Information

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LANGUAGE: eng

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Grant and Affiliation Information for Kramers theory in the relaxation dynamics of a tilted asymmetric periodic potential.

AFFILIATION: Department of Applied Physics, Waseda University, 3-4-1 Okubo, Shinjuku-ku, Tokyo 169-8555, Japan.

Country: United States

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MEDLINETA: Phys Rev E Stat Nonlin Soft Ma

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