Vibration-assisted resonance in photosynthetic excitation-energy transfer
Vibration-assisted resonance in photosynthetic excitation-energy transfer
Understanding how the effectiveness of natural photosynthetic energy-harvesting systems arises from the interplay between quantum coherence and environmental noise represents a significant challenge for quantum theory. Recently it has begun to be appreciated that discrete molecular vibrational modes may play an important role in the dynamics of such systems. Here we present a microscopic mechanism by which intramolecular vibrations may be able to contribute to the efficiency and directionality of energy transfer. Excited vibrational states create resonant pathways through the system, supporting fast and efficient energy transport. Vibrational damping together with the natural downhill arrangement of molecular energy levels gives intrinsic directionality to the energy flow. Analytical and numerical results demonstrate a significant enhancement of the efficiency and directionality of energy transport that can be directly related to the existence of resonances between vibrational and excitonic levels.
1-10
Irish, E. K.
b78b8d7c-c747-4437-bb6f-189186713998
Gómez-Bombarelli, R.
468543fa-771f-4cb8-b17e-cdc27903d42d
Lovett, B. W.
f6d0247e-78db-4d7c-8479-39530df8aed9
14 July 2014
Irish, E. K.
b78b8d7c-c747-4437-bb6f-189186713998
Gómez-Bombarelli, R.
468543fa-771f-4cb8-b17e-cdc27903d42d
Lovett, B. W.
f6d0247e-78db-4d7c-8479-39530df8aed9
Irish, E. K., Gómez-Bombarelli, R. and Lovett, B. W.
(2014)
Vibration-assisted resonance in photosynthetic excitation-energy transfer.
Physical Review A - Atomic, Molecular, and Optical Physics, 90 (1), , [012510].
(doi:10.1103/PhysRevA.90.012510).
Abstract
Understanding how the effectiveness of natural photosynthetic energy-harvesting systems arises from the interplay between quantum coherence and environmental noise represents a significant challenge for quantum theory. Recently it has begun to be appreciated that discrete molecular vibrational modes may play an important role in the dynamics of such systems. Here we present a microscopic mechanism by which intramolecular vibrations may be able to contribute to the efficiency and directionality of energy transfer. Excited vibrational states create resonant pathways through the system, supporting fast and efficient energy transport. Vibrational damping together with the natural downhill arrangement of molecular energy levels gives intrinsic directionality to the energy flow. Analytical and numerical results demonstrate a significant enhancement of the efficiency and directionality of energy transport that can be directly related to the existence of resonances between vibrational and excitonic levels.
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Published date: 14 July 2014
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Local EPrints ID: 439258
URI: http://eprints.soton.ac.uk/id/eprint/439258
ISSN: 1050-2947
PURE UUID: 0923296c-4034-4161-b854-c79196f5e584
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Date deposited: 07 Apr 2020 16:31
Last modified: 16 Mar 2024 07:12
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Author:
R. Gómez-Bombarelli
Author:
B. W. Lovett
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