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Open Quantum Systems Decoherence
Quantum Chemistry
Exciton-phonon information flow in the energy transfer process of photosynthetic complexes
arXiv
Authors: Patrick Rebentrost, Alán Aspuru-Guzik
Year
2010
Paper ID
10387
Status
Preprint
Abstract Read
~2 min
Abstract Words
115
Citations
N/A
Abstract
Non-Markovian and non-equilibrium phonon effects are believed to be key ingredients in the energy transfer in photosynthetic complexes, especially in complexes which exhibit a regime of intermediate exciton-phonon coupling. In this work, we utilize a recently-developed measure for non-Markovianity to elucidate the exciton-phonon dynamics in terms of the information flow between electronic and vibrational degrees of freedom. We study the measure in the hierarchical equation of motion approach which captures strong system-bath coupling effects and non-equilibrium molecular reorganization. We propose an additional trace-distance measure for the information flow that could be extended to other master equations. We find that for a model dimer system and the Fenna-Matthews-Olson complex that non-Markovianity is significant under physiological conditions.
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- Non-Markovian and non-equilibrium phonon effects are believed to be key ingredients in the energy transfer in photosynthetic complexes, especially in complexes which exhibit a...
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