Narrow-linewidth exciton-polariton laser

IF 8.4 1区 物理与天体物理 Q1 OPTICS Optica Pub Date : 2024-05-28 DOI:10.1364/optica.525961
Bianca Rae Fabricante, Mateusz Król, Matthias Wurdack, Maciej Pieczarka, Mark Steger, David W. Snoke, Kenneth West, Loren N. Pfeiffer, Andrew G. Truscott, Elena A. Ostrovskaya, Eliezer Estrecho
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Abstract

Exciton-polariton lasers are a promising source of coherent light for low-energy applications due to their low-threshold operation. However, a detailed experimental study of their spectral purity, which directly affects their coherence properties, is still missing. Here, we present a high-resolution spectroscopic investigation of the energy and linewidth of an exciton-polariton laser in the single-mode regime, which derives its coherent emission from an optically pumped and confined exciton-polariton condensate. We report an ultra-narrow linewidth of 56 MHz or 0.24 µeV, corresponding to a coherence time of 5.7 ns. The narrow linewidth is consistently achieved by using an exciton-polariton condensate with a high photonic content confined in an optically induced trap. Contrary to previous studies, we show that the excitonic reservoir created by the pump and responsible for creating the trap does not strongly affect the emission linewidth as long as the condensate is trapped and the pump power is well above the condensation (lasing) threshold. The long coherence time of the exciton-polariton system uncovered here opens up opportunities for manipulating its macroscopic quantum state, which is essential for applications in classical and quantum computing.
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窄线宽激子-极化子激光器
激子-极化子激光器因其低阈值运行而成为低能量应用领域中一种很有前途的相干光源。然而,对直接影响其相干特性的光谱纯度的详细实验研究仍然缺失。在这里,我们展示了对单模制度下激子-极化子激光器的能量和线宽的高分辨率光谱研究,该激光器的相干发射来自光学泵浦和约束的激子-极化子凝聚态。我们报告的超窄线宽为 56 MHz 或 0.24 µeV,相干时间为 5.7 ns。窄线宽是通过在光学诱导陷阱中限制高光子含量的激子-极化子凝聚态持续实现的。与之前的研究相反,我们的研究表明,只要冷凝物被俘获且泵浦功率远高于冷凝(激光)阈值,由泵浦产生并负责制造陷阱的激子库就不会对发射线宽产生强烈影响。这里揭示的激子-极化子系统的长相干时间为操纵其宏观量子态提供了机会,这对于经典和量子计算的应用至关重要。
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来源期刊
Optica
Optica OPTICS-
CiteScore
19.70
自引率
2.90%
发文量
191
审稿时长
2 months
期刊介绍: Optica is an open access, online-only journal published monthly by Optica Publishing Group. It is dedicated to the rapid dissemination of high-impact peer-reviewed research in the field of optics and photonics. The journal provides a forum for theoretical or experimental, fundamental or applied research to be swiftly accessed by the international community. Optica is abstracted and indexed in Chemical Abstracts Service, Current Contents/Physical, Chemical & Earth Sciences, and Science Citation Index Expanded.
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