Room-temperature polariton lasing in GaN microrods with large Rabi splitting

Room-temperature polariton lasing is achieved in GaN microrods grown by metal-organic vapor phase epitaxy. We demonstrate a large Rabi splitting (Ω = 2g 0 ) up to 162 meV, exceeding the results from both the state-of-the-art nitride-based planar microcavities and previously reported GaN microrods. A...

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Veröffentlicht in:	Optics express 2022-05, Vol.30 (10), p.16794-16801
Hauptverfasser:	Chen, Huanqing, Li, Junchao, Yu, Guo, Zong, Hua, Lang, Rui, Lei, Menglai, Li, Shukun, Khan, Muhammad Saddique Akbar, Yang, Yue, Wei, Tiantian, Liao, Hui, Meng, Linghai, Wen, Peijun, Hu, Xiaodong
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container_title	Optics express
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creator	Chen, Huanqing Li, Junchao Yu, Guo Zong, Hua Lang, Rui Lei, Menglai Li, Shukun Khan, Muhammad Saddique Akbar Yang, Yue Wei, Tiantian Liao, Hui Meng, Linghai Wen, Peijun Hu, Xiaodong
description	Room-temperature polariton lasing is achieved in GaN microrods grown by metal-organic vapor phase epitaxy. We demonstrate a large Rabi splitting (Ω = 2g 0 ) up to 162 meV, exceeding the results from both the state-of-the-art nitride-based planar microcavities and previously reported GaN microrods. An ultra-low threshold of 1.8 kW/cm 2 is observed by power-dependent photoluminescence spectra, with the linewidth down to 1.31 meV and the blue shift up to 17.8 meV. This large Rabi splitting distinguishes our coherent light emission from a conventional photon lasing, which strongly supports the preparation of coherent light sources in integrated optical circuits and the study of exciting phenomena in macroscopic quantum states.
doi_str_mv	10.1364/OE.456945
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title	Room-temperature polariton lasing in GaN microrods with large Rabi splitting
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