Observation of transition from superfluorescence to polariton condensation in CsPbBr3 quantum dots film.

IF 19.4 1区 物理与天体物理 Q1 Physics and Astronomy Light, science & applications Pub Date : 2024-01-30 DOI:10.1038/s41377-024-01378-5
Danqun Mao, Linqi Chen, Zheng Sun, Min Zhang, Zhe-Yu Shi, Yongsheng Hu, Long Zhang, Jian Wu, Hongxing Dong, Wei Xie, Hongxing Xu
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Abstract

The superfluorescence effect has received extensive attention due to the many-body physics of quantum correlation in dipole gas and the optical applications of ultrafast bright radiation field based on the cooperative quantum state. Here, we demonstrate not only to observe the superfluorescence effect but also to control the cooperative state of the excitons ensemble by externally applying a regulatory dimension of coupling light fields. A new quasi-particle called cooperative exciton-polariton is revealed in a light-matter hybrid structure of a perovskite quantum dot thin film spin-coated on a Distributed Bragg Reflector. Above the nonlinear threshold, polaritonic condensation occurs at a nonzero momentum state on the lower polariton branch owning to the vital role of the synchronized excitons. The phase transition from superfluorescence to polariton condensation exhibits typical signatures of a decrease of the linewidth, an increase of the macroscopic coherence as well as an accelerated radiation decay rate. These findings are promising for opening new potential applications for super-brightness and unconventional coherent light sources and could enable the exploitation of cooperative effects for quantum optics.

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观测 CsPbBr3 量子点薄膜从超荧光到极化子凝聚的转变。
超荧光效应因偶极子气体中量子关联的多体物理学以及基于协同量子态的超快明亮辐射场的光学应用而受到广泛关注。在这里,我们不仅观察到了超荧光效应,还证明了通过外部施加耦合光场的调节维度来控制激子集合的合作态。在分布式布拉格反射器上自旋涂覆的过氧化物量子点薄膜的光-物质混合结构中,一种名为合作激子-极化子的新准粒子被揭示出来。在非线性阈值之上,由于同步激子的重要作用,在下极子分支的非零动量态发生了极子凝聚。从超荧光到极化子凝聚的相变表现出线宽减小、宏观相干性增强以及辐射衰减速率加快等典型特征。这些发现有望为超亮度和非常规相干光源开辟新的潜在应用领域,并能使量子光学利用合作效应成为可能。
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来源期刊
CiteScore
27.00
自引率
2.60%
发文量
331
审稿时长
20 weeks
期刊介绍: Light: Science & Applications is an open-access, fully peer-reviewed publication.It publishes high-quality optics and photonics research globally, covering fundamental research and important issues in engineering and applied sciences related to optics and photonics.
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