Quantum biology revisited

Cao, J.; Cogdell, R. J.; Coker, D. F.; Duan, H.-G.; Hauer, J.; Kleinekathöfer, U.; Jansen, T. L. C.; Mančal, T.; Miller, R. J. D.; Ogilvie, J. P.; Prokhorenko, V.; Renger, T.; Tan, H.-S.; Tempelaar, R.; Thorwart, M.; Thyrhaug, E.; Westenhoff, S.; Zigmantas, D.

doi:10.1126/sciadv.aaz4888

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Quantum biology revisited

Cao, J., Cogdell, R. J., Coker, D. F., Duan, H.-G., Hauer, J., Kleinekathöfer, U., et al. (2020). Quantum biology revisited. Science Advances, 6(14): eaaz4888. doi:10.1126/sciadv.aaz4888.

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This is an open-access article distributed under the terms of the Creative Commons Attribution-NonCommercial license, which permits use, distribution, and reproduction in any medium, so long as the resultant use is not for commercial advantage and provided the original work is properly cited.

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© The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works.

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aaz4888_SM (pdf, 1,5MB): Sections S1 to S6, Figs. S1 to S8, Table S1, Legends for movies S1 and S2, References | Movie S1 (mp4, 5MB) | Movie S2 (mp4, 5,2MB)

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https://dx.doi.org/10.1126/sciadv.aaz4888 (Verlagsversion) Open Access Status unbekannt

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Cao, J.¹, Autor
Cogdell, R. J.², Autor
Coker, D. F.³, Autor
Duan, H.-G.^{4, 5, 6}, Autor
Hauer, J.⁷, Autor
Kleinekathöfer, U.⁸, Autor
Jansen, T. L. C.⁹, Autor
Mančal, T.¹⁰, Autor
Miller, R. J. D.^{4, 6, 11}, Autor
Ogilvie, J. P.¹², Autor
Prokhorenko, V.⁴, Autor
Renger, T.¹³, Autor
Tan, H.-S.¹⁴, Autor
Tempelaar, R.¹⁵, Autor
Thorwart, M.^{5, 6}, Autor
Thyrhaug, E.⁷, Autor
Westenhoff, S.¹⁶, Autor
Zigmantas, D.¹⁷, Autor

Affiliations:
1Department of Chemistry, Massachusetts Institute of Technology, ou_persistent22
2Institute of Molecular, Cell and Systems Biology, College of Medical, Veterinary and Life Science, University of Glasgow, ou_persistent22
3Department of Chemistry, Boston University, ou_persistent22
4Miller Group, Atomically Resolved Dynamics Department, Max Planck Institute for the Structure and Dynamics of Matter, Max Planck Society, ou_1938288
5I. Institut für Theoretische Physik, Universität Hamburg, ou_persistent22
6The Hamburg Centre for Ultrafast Imaging, Universität Hamburg, ou_persistent22
7Technische Universität München, Dynamische Spektroskopien, Fakultät für Chemie, and Photonics Institute, TU Wien, ou_persistent22
8Department of Physics and Earth Science, Jacobs University Bremen, ou_persistent22
9Zernike Institute for Advanced Materials, University of Groningen, ou_persistent22
10Faculty of Mathematics and Physics, Charles University, ou_persistent22
11Departments of Chemistry and Physics, University of Toronto, ou_persistent22
12Department of Physics, University of Michigan, ou_persistent22
13Institute of Theoretical Physics, Department of Theoretical Biophysics, Johannes Kepler University Linz, ou_persistent22
14Division of Chemistry and Biological Chemistry, School of Physical and Mathematical Sciences, Nanyang Technological University, ou_persistent22
15Department of Chemistry, Columbia University, ou_persistent22
16Department of Chemistry and Molecular Biology, University of Gothenburg, ou_persistent22
17Chemical Physics, Box 124, Lund University, ou_persistent22

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Zusammenfassung: Photosynthesis is a highly optimized process from which valuable lessons can be learned about the operating principles in nature. Its primary steps involve energy transport operating near theoretical quantum limits in efficiency. Recently, extensive research was motivated by the hypothesis that nature used quantum coherences to direct energy transfer. This body of work, a cornerstone for the field of quantum biology, rests on the interpretation of small-amplitude oscillations in two-dimensional electronic spectra of photosynthetic complexes. This Review discusses recent work reexamining these claims and demonstrates that interexciton coherences are too short lived to have any functional significance in photosynthetic energy transfer. Instead, the observed long-lived coherences originate from impulsively excited vibrations, generally observed in femtosecond spectroscopy. These efforts, collectively, lead to a more detailed understanding of the quantum aspects of dissipation. Nature, rather than trying to avoid dissipation, exploits it via engineering of exciton-bath interaction to create efficient energy flow.

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Sprache(n): eng - English

Datum: Eingereicht: 2019-09-12Angenommen: 2020-01-06Online veröffentlicht: 2020-04-03

Publikationsstatus: Online veröffentlicht

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Art der Begutachtung: Expertenbegutachtung

Identifikatoren: DOI: 10.1126/sciadv.aaz4888

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Titel: Science Advances

Andere : Sci. Adv.

Genre der Quelle: Zeitschrift

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Ort, Verlag, Ausgabe: Washington : AAAS

Seiten: - Band / Heft: 6 (14) Artikelnummer: eaaz4888 Start- / Endseite: - Identifikator: ISSN: 2375-2548
CoNE: https://pure.mpg.de/cone/journals/resource/2375-2548

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