Research on Narrow Linewidth External Cavity Semiconductor Lasers

Narrow linewidth external cavity semiconductor lasers (NLECSLs) have many important applications, such as spectroscopy, metrology, biomedicine, holography, space laser communication, laser lidar and coherent detection, etc. Due to their high coherence, low phase-frequency noise, high monochromaticit...

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Veröffentlicht in:Crystals (Basel) 2022-07, Vol.12 (7), p.956
Hauptverfasser: Ding, Keke, Ma, Yuhang, Wei, Long, Li, Xuan, Shi, Junce, Li, Zaijin, Qu, Yi, Li, Lin, Qiao, Zhongliang, Liu, Guojun, Zeng, Lina
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Sprache:eng
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Zusammenfassung:Narrow linewidth external cavity semiconductor lasers (NLECSLs) have many important applications, such as spectroscopy, metrology, biomedicine, holography, space laser communication, laser lidar and coherent detection, etc. Due to their high coherence, low phase-frequency noise, high monochromaticity and wide wavelength tuning potential, NLECSLs have attracted much attention for their merits. In this paper, three main device structures for achieving NLECSLs are reviewed and compared in detail, such as free space bulk diffraction grating external cavity structure, waveguide external cavity structure and confocal Fabry–Perot cavity structure of NLECSLs. The Littrow structure and Littman structure of NLECSLs are introduced from the free space bulk diffraction grating external cavity structure of NLECSLs. The fiber Bragg grating external cavity structure and silicon based waveguide external cavity structure of NLECSLs are introduced from the waveguide external cavity structure of NLECSLs. The results show that the confocal Fabry–Perot cavity structure of NLECSLs is a potential way to realize a lower than tens Hz narrow linewidth laser output.
ISSN:2073-4352
2073-4352
DOI:10.3390/cryst12070956