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JOURNAL ARTICLE

Continuous‐Wave Lasing in Cesium Lead Bromide Perovskite Nanowires

Tyler J. S. EvansAndrew P. SchlausYongping FuXinjue ZhongTimothy L. AtallahMichael S. SpencerLouis E. BrusSong JinXiaoyang Zhu

Year: 2017 Journal:   Advanced Optical Materials Vol: 6 (2)   Publisher: Wiley
DOI: 10.1002/adom.201700982
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Abstract

Abstract Lead halide perovskite nanowires (NWs) have been demonstrated in pulsed lasing with high quantum yields, low thresholds, and broad tunability. However, continuous‐wave (CW) lasing, necessary for many optoelectronic applications, has not been achieved to date. This is thought to be due to many‐body screening, which reduces the excitonic resonance enhancement of the oscillator strength at high excitation densities necessary for population inversion. Here CW lasing in CsPbBr 3 perovskite NWs is reported. Analysis of the cavity modes and their temperature dependence reveals that both CW and pulsed lasing originate from polariton modes near the bottleneck region on the lower polariton branch, with a vacuum Rabi splitting of 0.20 ± 0.03 eV. These findings suggest that lead halide perovskite NWs may serve as low‐power CW coherent light sources and as model systems for polaritonics in the strong‐coupling regime.

Keywords:
Lasing threshold Materials science Perovskite (structure) Polariton Optoelectronics Continuous wave Nanowire Halide Population inversion Laser Excitation Resonance (particle physics) Exciton Condensed matter physics Atomic physics Optics Physics Wavelength

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Cited By
13.48
FWCI (Field Weighted Citation Impact)
50
Refs
0.99
Citation Normalized Percentile
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Citation History

Topics

Perovskite Materials and Applications
Physical Sciences →  Engineering →  Electrical and Electronic Engineering
Strong Light-Matter Interactions
Physical Sciences →  Physics and Astronomy →  Atomic and Molecular Physics, and Optics
Thermal Radiation and Cooling Technologies
Physical Sciences →  Engineering →  Civil and Structural Engineering

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