Room temperature exciton–polariton Bose–Einstein condensation in organic single-crystal microribbon cavities

The use of room temperature exciton–polariton Bose–Einstein condensation is limited by the need for external high-finesse microcavities. The authors generate room temperature EPs with single-crystal microribbons as waveguide Fabry–Pérot microcavities, and demonstrate controllable output of coherent...

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Main Authors: Ji Tang, Jian Zhang, Yuanchao Lv, Hong Wang, Fa Feng Xu, Chuang Zhang, Liaoxin Sun, Jiannian Yao, Yong Sheng Zhao
Format: Article
Language:English
Published: Nature Publishing Group 2021-06-01
Series:Nature Communications
Online Access:https://doi.org/10.1038/s41467-021-23524-y
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spelling doaj-07166d4968f04f3bb4bde17de7d280fc2021-06-06T11:13:26ZengNature Publishing GroupNature Communications2041-17232021-06-011211810.1038/s41467-021-23524-yRoom temperature exciton–polariton Bose–Einstein condensation in organic single-crystal microribbon cavitiesJi Tang0Jian Zhang1Yuanchao Lv2Hong Wang3Fa Feng Xu4Chuang Zhang5Liaoxin Sun6Jiannian Yao7Yong Sheng Zhao8Key Laboratory of Photochemistry, Institute of Chemistry, Chinese Academy of SciencesState Key Laboratory of Infrared Physics, Shanghai Institute of Technical Physics, Chinese Academy of SciencesKey Laboratory of Photochemistry, Institute of Chemistry, Chinese Academy of SciencesKey Laboratory of Photochemistry, Institute of Chemistry, Chinese Academy of SciencesKey Laboratory of Photochemistry, Institute of Chemistry, Chinese Academy of SciencesKey Laboratory of Photochemistry, Institute of Chemistry, Chinese Academy of SciencesState Key Laboratory of Infrared Physics, Shanghai Institute of Technical Physics, Chinese Academy of SciencesKey Laboratory of Photochemistry, Institute of Chemistry, Chinese Academy of SciencesKey Laboratory of Photochemistry, Institute of Chemistry, Chinese Academy of SciencesThe use of room temperature exciton–polariton Bose–Einstein condensation is limited by the need for external high-finesse microcavities. The authors generate room temperature EPs with single-crystal microribbons as waveguide Fabry–Pérot microcavities, and demonstrate controllable output of coherent light.https://doi.org/10.1038/s41467-021-23524-y
collection DOAJ
language English
format Article
sources DOAJ
author Ji Tang
Jian Zhang
Yuanchao Lv
Hong Wang
Fa Feng Xu
Chuang Zhang
Liaoxin Sun
Jiannian Yao
Yong Sheng Zhao
spellingShingle Ji Tang
Jian Zhang
Yuanchao Lv
Hong Wang
Fa Feng Xu
Chuang Zhang
Liaoxin Sun
Jiannian Yao
Yong Sheng Zhao
Room temperature exciton–polariton Bose–Einstein condensation in organic single-crystal microribbon cavities
Nature Communications
author_facet Ji Tang
Jian Zhang
Yuanchao Lv
Hong Wang
Fa Feng Xu
Chuang Zhang
Liaoxin Sun
Jiannian Yao
Yong Sheng Zhao
author_sort Ji Tang
title Room temperature exciton–polariton Bose–Einstein condensation in organic single-crystal microribbon cavities
title_short Room temperature exciton–polariton Bose–Einstein condensation in organic single-crystal microribbon cavities
title_full Room temperature exciton–polariton Bose–Einstein condensation in organic single-crystal microribbon cavities
title_fullStr Room temperature exciton–polariton Bose–Einstein condensation in organic single-crystal microribbon cavities
title_full_unstemmed Room temperature exciton–polariton Bose–Einstein condensation in organic single-crystal microribbon cavities
title_sort room temperature exciton–polariton bose–einstein condensation in organic single-crystal microribbon cavities
publisher Nature Publishing Group
series Nature Communications
issn 2041-1723
publishDate 2021-06-01
description The use of room temperature exciton–polariton Bose–Einstein condensation is limited by the need for external high-finesse microcavities. The authors generate room temperature EPs with single-crystal microribbons as waveguide Fabry–Pérot microcavities, and demonstrate controllable output of coherent light.
url https://doi.org/10.1038/s41467-021-23524-y
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