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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2021-06-01
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Series: | Nature Communications |
Online Access: | https://doi.org/10.1038/s41467-021-23524-y |
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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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