Room Temperature Polariton Lasing in All-Inorganic Perovskites
Rui Su, Carole Diederichs, Jun Wang, Timothy C.H. Liew, Jiaxin Zhao,, Sheng Liu, Weigao Xu, Zhanghai Chen, Qihua Xiong

TL;DR
This paper demonstrates room-temperature polariton lasing using an all-inorganic cesium lead chloride perovskite microcavity, offering a simpler, epitaxy-free approach with promising applications in tunable, high-performance coherent light sources.
Contribution
It introduces an epitaxy-free method for achieving room-temperature polariton lasing with inorganic perovskites, simplifying fabrication and broadening application potential.
Findings
Unambiguous evidence of polariton lasing at room temperature.
Observation of superlinear power dependence and linewidth narrowing.
Potential for large-area, low-cost, high-performance devices.
Abstract
Polariton lasing is the coherent emission arising from a macroscopic polariton condensate first proposed in 1996. Over the past two decades, polariton lasing has been demonstrated in a few inorganic and organic semiconductors in both low and room temperatures. Polariton lasing in inorganic materials significantly relies on sophisticated epitaxial growth of crystalline gain medium layers sandwiched by two distributed Bragg reflectors in which combating the built-in strain and mismatched thermal properties is nontrivial. On the other hand, organic active media usually suffer from large threshold density and weak nonlinearity due to the Frenkel exciton nature. Further development of polariton lasing towards technologically significant applications demand more accessible materials, ease of device fabrication and broadly tunable emission at room temperature. Herein, we report the…
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