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Exact Stochastic Unraveling of an Optical Coherence Dynamics by Cumulant Expansion
arXiv
Authors: Jan Olsina, Tobias Kramer, Christoph Kreisbeck, Tomas Mancal
Year
2013
Paper ID
32918
Status
Preprint
Abstract Read
~2 min
Abstract Words
152
Citations
N/A
Abstract
A numerically exact Monte Carlo scheme for calculation of open quantum system dynamics is proposed and implemented. The method consists of a Monte-Carlo summation of a perturbation expansion in terms of trajectories in Liouville phase-space with respect to the coupling between the excited states of the molecule. The trajectories are weighted by a complex decoherence factor based on the second-order cumulant expansion of the environmental evolution. The method can be used with an arbitrary environment characterized by a general correlation function and arbitrary coupling strength. It is formally exact for harmonic environments, and it can be used with arbitrary temperature. Time evolution of an optically excited Frenkel exciton dimer representing a molecular exciton interacting with a charge transfer state is calculated by the proposed method. We calculate the evolution of the optical coherence elements of the density matrix and linear absorption spectrum, and compare them with the predictions of standard simulation methods.
Why This Paper Matters
- This paper contributes to the Quantum Simulation research area in the Quantum Articles archive.
- It adds a 2013 reference point for readers tracking recent quantum research.
- A numerically exact Monte Carlo scheme for calculation of open quantum system dynamics is proposed and implemented.
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