Excitonic energy transfer in light-harvesting complexes in purple bacteria

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Excitonic energy transfer in light-harvesting complexes in purple bacteria

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dc.contributor.author Ye, Jun
dc.contributor.author Sun, Kewei
dc.contributor.author Zhao, Yang
dc.contributor.author Yu, Yunjin
dc.contributor.author Lee, Chee Kong
dc.contributor.author Cao, Jianshu
dc.date.accessioned 2012-07-05T04:03:02Z
dc.date.available 2012-07-05T04:03:02Z
dc.date.copyright 2012
dc.date.issued 2012-07-05
dc.identifier.citation Ye, J., Sun, K., Zhao, Y., Yu, Y., Lee, C. K., & Cao, J. (2012). Excitonic Energy Transfer in Light-Harvesting Complexes in Purple Bacteria. Journal of Chemical Physics, 136(24), 245104-.
dc.identifier.uri http://hdl.handle.net/10220/8289
dc.description.abstract Two distinct approaches, the Frenkel-Dirac time-dependent variation and the Haken-Strobl model, are adopted to study energy transfer dynamics in single-ring and double-ring lightharvesting systems in purple bacteria. It is found that inclusion of long-range dipolar interactions in the two methods results in significant increases in intra- or inter-ring exciton transfer efficiency. The dependence of exciton transfer efficiency on trapping positions on single rings of LH2 (B850) and LH1 is similar to that in toy models with nearest-neighbor coupling only. However, owing to the symmetry breaking caused by the dimerization of BChls and dipolar couplings, such dependence has been largely suppressed. In the studies of coupled-ring systems, both methods reveal interesting role of dipolar interaction in increasing energy transfer efficiency by introducing multiple intra/inter-ring transfer paths. Importantly, the time scale ( 4ps) of inter-ring exciton transfer obtained from polaron dynamics is in good agreement with previous studies. In a double-ring LH2 system, non-nearest neighbor interaction can induce symmetry breaking which leads to global minima and local minima of the average trapping time when there is a finite value of non-zero dephasing rate, suggesting that environment plays a role in preserving quantum coherent energy transfer. In contrast, dephasing comes into play only when the perfect cylindrical symmetry in the hypothetic system is broken. This study has revealed that dipolar interaction between chromophores may play an important part in the high energy transfer efficiency in the LH2 system and many other natural photosynthetic systems.
dc.format.extent 40 p.
dc.language.iso en
dc.relation.ispartofseries Journal of chemical physics
dc.rights © 2012 American Institute of Physics. This paper was published in Journal of Chemical Physics and is made available as an electronic reprint (preprint) with permission of American Institute of Physics. The paper can be found at the following official URL: [DOI: http://dx.doi.org/10.1063/1.4729786 ].  One print or electronic copy may be made for personal use only. Systematic or multiple reproduction, distribution to multiple locations via electronic or other means, duplication of any material in this paper for a fee or for commercial purposes, or modification of the content of the paper is prohibited and is subject to penalties under law.
dc.title Excitonic energy transfer in light-harvesting complexes in purple bacteria
dc.type Journal Article
dc.contributor.school School of Materials Science and Engineering
dc.identifier.doi http://dx.doi.org/10.1063/1.4729786
dc.description.version Published version
dc.identifier.rims 167147

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