Spontaneous phase locking in a broad-area semiconductor laser

IF 32.3 1区物理与天体物理 Q1 OPTICS Nature Photonics Pub Date : 2025-01-07 DOI:10.1038/s41566-024-01604-x

Stefan Bittner, Marc Sciamanna

引用次数: 0

Abstract

Broad-area semiconductor lasers are used in many high-power applications; however, their spatio-temporal dynamics are complex and intrinsically unstable due to the interaction between transverse lasing modes. Here a dynamical and ultrahigh-resolution spatio-spectral analysis of commercial broad-area lasers reveals multiplets of phase-locked first- and second-order transverse modes that are spontaneously created by the nonlinear dynamics of the laser. Phase locking between modes of different transverse order is confirmed by comparing the linewidths of the lasing modes with that of their beat note and by a direct measurement of their phase fluctuation correlations. The spontaneous phase locking is unexpected since the overall dynamics are unstable and the system lacks any intentional feature to induce locking. This partially synchronized dynamical state with groups of coexisting synchronized and unsynchronized laser modes is similar to chimera states found in networks of coupled oscillators, indicating that such states may exist in a wider range of systems than previously assumed.

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宽域半导体激光器在许多高功率应用中都有使用；然而，由于横向激光模式之间的相互作用，它们的时空动态非常复杂，而且本质上并不稳定。在此，我们对商用宽域激光器进行了动态和超高分辨率时空谱分析，揭示了激光器非线性动力学自发产生的锁相一阶和二阶横向模式的多重序列。通过比较不同横向阶数模式的线宽与它们的节拍音符的线宽，以及直接测量它们的相位波动相关性，证实了不同横向阶数模式之间的锁相。自发锁相是意料之外的，因为整体动力学是不稳定的，而且系统缺乏任何诱导锁相的有意特征。这种由同步和非同步激光模式群共存的部分同步动力学状态类似于耦合振荡器网络中的嵌合态，表明这种状态可能存在于比以前假设的更广泛的系统中。

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来源期刊

Nature Photonics 物理-光学

CiteScore

54.20

自引率

1.70%

发文量

158

审稿时长

12 months

期刊介绍： Nature Photonics is a monthly journal dedicated to the scientific study and application of light, known as Photonics. It publishes top-quality, peer-reviewed research across all areas of light generation, manipulation, and detection. The journal encompasses research into the fundamental properties of light and its interactions with matter, as well as the latest developments in optoelectronic devices and emerging photonics applications. Topics covered include lasers, LEDs, imaging, detectors, optoelectronic devices, quantum optics, biophotonics, optical data storage, spectroscopy, fiber optics, solar energy, displays, terahertz technology, nonlinear optics, plasmonics, nanophotonics, and X-rays. In addition to research papers and review articles summarizing scientific findings in optoelectronics, Nature Photonics also features News and Views pieces and research highlights. It uniquely includes articles on the business aspects of the industry, such as technology commercialization and market analysis, offering a comprehensive perspective on the field.

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