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      Distinguishing the roles of energy funnelling and delocalization in photosynthetic light harvesting

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          Abstract

          Photosynthetic complexes improve the transfer of excitation energy from peripheral antennas to reaction centers in several ways. In particular, a downward energy funnel can direct excitons in the right direction, while coherent excitonic delocalization can enhance transfer rates through the cooperative phenomenon of supertransfer. However, isolating the role of purely coherent effects is difficult because any change to the delocalization also changes the energy landscape. Here, we show that the relative importance of the two processes can be determined by comparing the natural light-harvesting apparatus with counterfactual models in which the delocalization and the energy landscape are altered. Applied to the example of purple bacteria, our approach shows that although supertransfer does enhance the rates somewhat, the energetic funnelling plays the decisive role. Because delocalization has a minor role (and is sometimes detrimental), it is most likely not adaptive, being a side-effect of the dense chlorophyll packing that evolved to increase light absorption per reaction center.

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          Author and article information

          Journal
          2015-09-04
          2016-03-03
          Article
          10.1039/C6CP00104A
          1509.01537
          4e939a57-d2c7-4c1b-9d24-22531d24558f

          http://arxiv.org/licenses/nonexclusive-distrib/1.0/

          History
          Custom metadata
          Phys. Chem. Chem. Phys. 18, 7459 (2016)
          physics.bio-ph physics.chem-ph quant-ph

          Quantum physics & Field theory,Physical chemistry,Biophysics
          Quantum physics & Field theory, Physical chemistry, Biophysics

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