2012
DOI: 10.1063/1.3693019
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Influence of environment induced correlated fluctuations in electronic coupling on coherent excitation energy transfer dynamics in model photosynthetic systems

Abstract: Two-dimensional photon-echo experiments indicate that excitation energy transfer between chromophores near the reaction center of the photosynthetic purple bacterium Rhodobacter sphaeroides occurs coherently with decoherence times of hundreds of femtoseconds, comparable to the energy transfer time scale in these systems. The original explanation of this observation suggested that correlated fluctuations in chromophore excitation energies, driven by large scale protein motions could result in long lived coheren… Show more

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Cited by 51 publications
(53 citation statements)
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References 91 publications
(86 reference statements)
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“…90,91 The investigation of these possible correlations through MD-QM/MM approaches can be divided in two parts. An interesting finding resulting from the spatial analysis is the important role played by the solvent.…”
Section: The Impact Of the Environment In Spatial And Electronic Corrmentioning
confidence: 99%
“…90,91 The investigation of these possible correlations through MD-QM/MM approaches can be divided in two parts. An interesting finding resulting from the spatial analysis is the important role played by the solvent.…”
Section: The Impact Of the Environment In Spatial And Electronic Corrmentioning
confidence: 99%
“…4045 Whereas in the simple models, correlations prolong the quantum beating and the energy transfer times, the more general models show that, in principle, it is possible to simultaneously increase the lifetime of coherences, and to decrease the energy transfer times. 44 Thus, there is a clear need for a microscopically calculated spectral density to clarify the possible role of correlations.…”
Section: Introductionmentioning
confidence: 99%
“…[41][42][43] Any fluctuation of the excitonic couplings due to short range interactions coupled to thermal motion is expected to decrease the coherence and affect the exciton dynamics. 39,44,45 The aim of this paper is to evaluate the excitonic coupling between pairs of chromophores in three different LHCs and in two organic semiconductors (one amorphous and one crystalline), to achieve a broader understanding of the importance of short range interactions valid for most of the problems under current consideration. This large database of structures is used to assess the role of short range interactions with respect to the Coulombic one.…”
Section:   a B A Bmentioning
confidence: 99%
“…[35][36][37] Furthermore, short range interactions at finite temperature cause strong fluctuations in the excitonic coupling 3,13,36 which in some instances can influence or limit the energy transfer dynamics. [37][38][39] In photosynthesis, light absorption and efficient transport of the excitation energy is achieved by clusters of chromophores in proteins commonly called light harvesting complexes (LHCs). 2 Generally, the majority of chromophore pairs are sufficiently distant that their interaction is reasonably well described by expressions like (1).…”
Section:   a B A Bmentioning
confidence: 99%