Thresholdless coherence in a superradiant laser

IF 20.6 Q1 OPTICS Light-Science & Applications Pub Date : 2024-09-05 DOI:10.1038/s41377-024-01591-2
Seung-Hoon Oh, Jinuk Kim, Junseo Ha, Gibeom Son, Kyungwon An
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Abstract

Lasing threshold in the conventional lasers is the minimum input power required to initiate laser oscillation. It has been widely accepted that the conventional laser threshold occurring around a unity intracavity photon number can be eliminated in the input-output curve by making the so-called β parameter approach unity. The recent experiments, however, have revealed that even in this case the photon statistics still undergo a transition from coherent to thermal statistics when the intracavity mean photon number is decreased below unity. Since the coherent output is only available above the diminished threshold, the long-sought promise of thresholdless lasers to produce always coherent light has become questionable. Here, we present an always-coherent thresholdless laser based on superradiance by two-level atoms in a quantum superposition state with the same phase traversing a high-Q cavity. Superradiant lasing was observed without the conventional lasing threshold around the unity photon number and the photon statistics remained near coherent even below it. The coherence was improved by reducing the coupling constant as well as the excited-state amplitude in the superposition state. Our results pave a way toward always-coherent thresholdless lasers with more practical media such as quantum dots, nitrogen-vacancy centers and doped ions in crystals.

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超辐射激光器中的无阈相干性
传统激光器中的激光阈值是启动激光振荡所需的最小输入功率。人们普遍认为,通过使所谓的 β 参数接近于 1,就可以在输入-输出曲线中消除在腔内光子数达到 1 时出现的传统激光阈值。然而,最近的实验表明,即使在这种情况下,当腔内平均光子数降至一以下时,光子统计仍会从相干统计过渡到热统计。由于相干输出只在阈值降低时才会出现,因此人们长期追求的无阈值激光器产生始终相干光的承诺就变得值得怀疑了。在这里,我们提出了一种基于量子叠加态中的两级原子以相同相位穿越高 Q 腔的超辐射的始终相干无阈值激光器。超辐射激光在光子数统一附近没有传统的激光阈值,即使低于该阈值,光子统计也保持近乎相干。通过降低耦合常数以及叠加态中的激发态振幅,相干性得到了改善。我们的研究结果为利用量子点、氮空位中心和晶体中的掺杂离子等更实用的介质实现始终相干的无阈值激光器铺平了道路。
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来源期刊
Light-Science & Applications
Light-Science & Applications 数理科学, 物理学I, 光学, 凝聚态物性 II :电子结构、电学、磁学和光学性质, 无机非金属材料, 无机非金属类光电信息与功能材料, 工程与材料, 信息科学, 光学和光电子学, 光学和光电子材料, 非线性光学与量子光学
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