GHz Compact Laser Enabled by GaSb Nanowires as Saturable Absorbers

Owing to the narrow bandgap and excellent optoelectronic properties, III‐Sb nanowires (NWs) enable efficient optical response from near‐infrared to mid‐infrared, making them ideal candidates for broadband optical modulation. Herein, high‐purity GaSb NWs with controlled density are prepared on the tr...

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Published in:Advanced photonics research 2023-12, Vol.4 (12), p.n/a
Main Authors: Yin, Yanxue, Li, Genglin, Sa, Zixu, Liu, Fengjing, Sun, Shuo, Sun, Xiaoli, Jia, Yuechen, Yang, Zai-Xing
Format: Article
Language:English
Subjects:
Chemical vapor deposition
GaSb
Glass substrates
Investigations
Lasers
Light
Nanowires
near-infrared lasers
nonlinear absorption
saturable absorbers
Surfactants
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Summary:Owing to the narrow bandgap and excellent optoelectronic properties, III‐Sb nanowires (NWs) enable efficient optical response from near‐infrared to mid‐infrared, making them ideal candidates for broadband optical modulation. Herein, high‐purity GaSb NWs with controlled density are prepared on the transparent substrates of glasses. The phase purity and crystallinity of as‐prepared GaSb NWs are verified by X‐ray diffraction. Z‐scan and I‐scan techniques are adopted to investigate the nonlinear optical modulation properties, displaying a high modulation depth of 40% (at 1 μm wavelength) for the GaSb NWs with growth time of 30 min. Furthermore, the as‐prepared GaSb NWs are used as the saturable absorber elements in a waveguide laser cavity, demonstrating efficient Q‐switched mode‐locked lasers with a repetition rate of 8.2 GHz and a pulse duration of 31 ps (operating at 1 μm wavelength). All results show the great potential of GaSb NWs for the ultrafast laser and nonlinear optical applications. GaSb nanowires are used as the saturable absorber elements in a waveguide laser cavity, demonstrating efficient Q‐switched mode‐locked lasers with a repetition rate of 8.2 GHz and a pulse duration of 31 ps operating at 1 μm wavelength. All results suggest the great potential of GaSb nanowires for the applications in next‐generation ultrafast lasers.
ISSN:2699-9293
2699-9293
DOI:10.1002/adpr.202300193