Studying light-harvesting models with superconducting circuits

Studying light-harvesting models with superconducting circuits

Investigating photosynthesis processes in biological samples is challenging due to their complex and disordered structure. Based on analog quantum simulations with superconducting quantum circuits, the authors show how the interplay of quantum coherence and environmental interactions affects energy...

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Main Authors: Anton Potočnik, Arno Bargerbos, Florian A. Y. N. Schröder, Saeed A. Khan, Michele C. Collodo, Simone Gasparinetti, Yves Salathé, Celestino Creatore, Christopher Eichler, Hakan E. Türeci, Alex W. Chin, Andreas Wallraff
Format: Article
Language:English
Published: Nature Publishing Group 2018-03-01
Series:Nature Communications
Online Access:https://doi.org/10.1038/s41467-018-03312-x
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spelling doaj-799e7670772d4f898354729cd99969a52021-05-11T10:08:16ZengNature Publishing GroupNature Communications2041-17232018-03-01911710.1038/s41467-018-03312-xStudying light-harvesting models with superconducting circuitsAnton Potočnik0Arno Bargerbos1Florian A. Y. N. Schröder2Saeed A. Khan3Michele C. Collodo4Simone Gasparinetti5Yves Salathé6Celestino Creatore7Christopher Eichler8Hakan E. Türeci9Alex W. Chin10Andreas Wallraff11Department of Physics, ETH ZurichDepartment of Physics, ETH ZurichCavendish Laboratory, University of CambridgeDepartment of Electrical Engineering, Princeton UniversityDepartment of Physics, ETH ZurichDepartment of Physics, ETH ZurichDepartment of Physics, ETH ZurichDepartment of Physics, ETH ZurichDepartment of Physics, ETH ZurichDepartment of Electrical Engineering, Princeton UniversityCavendish Laboratory, University of CambridgeDepartment of Physics, ETH ZurichInvestigating photosynthesis processes in biological samples is challenging due to their complex and disordered structure. Based on analog quantum simulations with superconducting quantum circuits, the authors show how the interplay of quantum coherence and environmental interactions affects energy transport.https://doi.org/10.1038/s41467-018-03312-x
collection DOAJ
language English
format Article
sources DOAJ
author Anton Potočnik
Arno Bargerbos
Florian A. Y. N. Schröder
Saeed A. Khan
Michele C. Collodo
Simone Gasparinetti
Yves Salathé
Celestino Creatore
Christopher Eichler
Hakan E. Türeci
Alex W. Chin
Andreas Wallraff
spellingShingle Anton Potočnik
Arno Bargerbos
Florian A. Y. N. Schröder
Saeed A. Khan
Michele C. Collodo
Simone Gasparinetti
Yves Salathé
Celestino Creatore
Christopher Eichler
Hakan E. Türeci
Alex W. Chin
Andreas Wallraff
Studying light-harvesting models with superconducting circuits
Nature Communications
author_facet Anton Potočnik
Arno Bargerbos
Florian A. Y. N. Schröder
Saeed A. Khan
Michele C. Collodo
Simone Gasparinetti
Yves Salathé
Celestino Creatore
Christopher Eichler
Hakan E. Türeci
Alex W. Chin
Andreas Wallraff
author_sort Anton Potočnik
title Studying light-harvesting models with superconducting circuits
title_short Studying light-harvesting models with superconducting circuits
title_full Studying light-harvesting models with superconducting circuits
title_fullStr Studying light-harvesting models with superconducting circuits
title_full_unstemmed Studying light-harvesting models with superconducting circuits
title_sort studying light-harvesting models with superconducting circuits
publisher Nature Publishing Group
series Nature Communications
issn 2041-1723
publishDate 2018-03-01
description Investigating photosynthesis processes in biological samples is challenging due to their complex and disordered structure. Based on analog quantum simulations with superconducting quantum circuits, the authors show how the interplay of quantum coherence and environmental interactions affects energy transport.
url https://doi.org/10.1038/s41467-018-03312-x
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