Combining density functional theory with macroscopic QED for quantum light-matter interactions in 2D materials

The development of a quantitative and predictive theory of quantum light-matter interactions in ultrathin materials is both a conceptual and computational challenge. Here, the authors develop such a framework by combining density functional theory with macroscopic quantum electrodynamics, and use it...

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Autores principales: Mark Kamper Svendsen, Yaniv Kurman, Peter Schmidt, Frank Koppens, Ido Kaminer, Kristian S. Thygesen
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2021
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Acceso en línea:https://doaj.org/article/831f56e34a5848dfbb8eb60f9bedff12
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spelling oai:doaj.org-article:831f56e34a5848dfbb8eb60f9bedff122021-12-02T16:50:35ZCombining density functional theory with macroscopic QED for quantum light-matter interactions in 2D materials10.1038/s41467-021-23012-32041-1723https://doaj.org/article/831f56e34a5848dfbb8eb60f9bedff122021-05-01T00:00:00Zhttps://doi.org/10.1038/s41467-021-23012-3https://doaj.org/toc/2041-1723The development of a quantitative and predictive theory of quantum light-matter interactions in ultrathin materials is both a conceptual and computational challenge. Here, the authors develop such a framework by combining density functional theory with macroscopic quantum electrodynamics, and use it to quantify the Purcell effect in van der Waals heterostructures.Mark Kamper SvendsenYaniv KurmanPeter SchmidtFrank KoppensIdo KaminerKristian S. ThygesenNature PortfolioarticleScienceQENNature Communications, Vol 12, Iss 1, Pp 1-13 (2021)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Mark Kamper Svendsen
Yaniv Kurman
Peter Schmidt
Frank Koppens
Ido Kaminer
Kristian S. Thygesen
Combining density functional theory with macroscopic QED for quantum light-matter interactions in 2D materials
description The development of a quantitative and predictive theory of quantum light-matter interactions in ultrathin materials is both a conceptual and computational challenge. Here, the authors develop such a framework by combining density functional theory with macroscopic quantum electrodynamics, and use it to quantify the Purcell effect in van der Waals heterostructures.
format article
author Mark Kamper Svendsen
Yaniv Kurman
Peter Schmidt
Frank Koppens
Ido Kaminer
Kristian S. Thygesen
author_facet Mark Kamper Svendsen
Yaniv Kurman
Peter Schmidt
Frank Koppens
Ido Kaminer
Kristian S. Thygesen
author_sort Mark Kamper Svendsen
title Combining density functional theory with macroscopic QED for quantum light-matter interactions in 2D materials
title_short Combining density functional theory with macroscopic QED for quantum light-matter interactions in 2D materials
title_full Combining density functional theory with macroscopic QED for quantum light-matter interactions in 2D materials
title_fullStr Combining density functional theory with macroscopic QED for quantum light-matter interactions in 2D materials
title_full_unstemmed Combining density functional theory with macroscopic QED for quantum light-matter interactions in 2D materials
title_sort combining density functional theory with macroscopic qed for quantum light-matter interactions in 2d materials
publisher Nature Portfolio
publishDate 2021
url https://doaj.org/article/831f56e34a5848dfbb8eb60f9bedff12
work_keys_str_mv AT markkampersvendsen combiningdensityfunctionaltheorywithmacroscopicqedforquantumlightmatterinteractionsin2dmaterials
AT yanivkurman combiningdensityfunctionaltheorywithmacroscopicqedforquantumlightmatterinteractionsin2dmaterials
AT peterschmidt combiningdensityfunctionaltheorywithmacroscopicqedforquantumlightmatterinteractionsin2dmaterials
AT frankkoppens combiningdensityfunctionaltheorywithmacroscopicqedforquantumlightmatterinteractionsin2dmaterials
AT idokaminer combiningdensityfunctionaltheorywithmacroscopicqedforquantumlightmatterinteractionsin2dmaterials
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