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W2024471905 endingPage "69" @default.
W2024471905 startingPage "62" @default.
W2024471905 abstract "The recently developed quantum-classical method has been applied to the study of dissipative dynamics in multidimensional systems. The method is designed to treat many-body systems consisting of a low dimensional quantum part coupled to a classical bath. Assuming the approximate zeroth order evolution rule, the corrections to the quantum propagator are defined in terms of the total Hamiltonian and the zeroth order propagator. Then the corrections are taken to the classical limit by introducing the frozen Gaussian approximation for the bath degrees of freedom. The evolution of the primary part is governed by the corrected propagator yielding the exact quantum dynamics. The method has been tested on two model systems coupled to a harmonic bath: (i) an anharmonic (Morse) oscillator and (ii) a double-well potential. The simulations have been performed at zero temperature. The results have been compared to the exact quantum simulations using the surrogate Hamiltonian approach." @default.
W2024471905 created "2016-06-24" @default.
W2024471905 creator A5061988268 @default.
W2024471905 creator A5079231031 @default.
W2024471905 date "2010-05-01" @default.
W2024471905 modified "2023-09-23" @default.
W2024471905 title "Dissipative dynamics with the corrected propagator method. Numerical comparison between fully quantum and mixed quantum/classical simulations" @default.
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W2024471905 doi "https://doi.org/10.1016/j.chemphys.2010.01.021" @default.
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