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Title

Time–Frequency and Spectrum Analyses of All-Solid-State Self-Mode-Locked Burst Pulse Lasers.

Authors

Xu, Mengmeng; Hu, Miao; Li, Zerong; Wang, Jinxiu; Fu, Jiaxin; Wang, Shaokun; Ji, Yingying; Li, Haozhen; Bi, Meihua; Zhou, Xuefang; Pan, Sunqiang; Liu, Chong

Abstract

The theoretical and experimental characteristics of all-solid-state self-mode-locked burst pulse lasers are investigated in this study. The time–frequency and spectrum analyses of the lasers incorporating Fabry–Pérot (F-P) structures are presented, along with the development of the corresponding theoretical model. Self-mode-locked burst pulse lasers are experimentally constructed to reduce intracavity losses using the front and rear end surfaces of the gain media to form F-P structures. When the laser cavity length is 600 mm and the gain media lengths are 5, 6, and 10 mm, each burst pulse produced contains 56, 47, and 28 subpulses, respectively, with the same burst pulse width of 2 ns. The burst pulse train with beam quality M2 = 1.37 and an average output power of 0.23 W is obtained when the gain medium length is 5 mm and the pump power is 4.5 W. The corresponding burst pulse repetition frequency is 0.25 GHz and the subpulse repetition frequency is 13.66 GHz. The time–frequency spectral analyses of the laser signals provide a good representation of laser spectral information that even the currently available highest-resolution spectrometers cannot resolve.

Subjects

TIME-frequency analysis; LASER pulses; ACTIVE medium; SPECTROMETERS; RAMAN lasers; LASERS; SPECTRUM analysis

Publication

Photonics, 2024, Vol 11, Issue 6, p558

ISSN

2304-6732

Publication type

Academic Journal

DOI

10.3390/photonics11060558

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