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Article Dans Une Revue Applied optics Année : 2019

2-μm Brillouin laser based on infrared nonlinear glass fibers

Résumé

Infrared fiber materials such as chalcogenide, tellurite, and heavily germanium-doped silica glasses are attractive materials for many applications based on nonlinear optical effects such as Kerr, Raman, and Brillouin processes. Here, we experimentally demonstrate a close-to-single-frequency Brillouin fiber laser in the 2-μm wavelength region either based on tellurite (TeO2) glass or on heavily germanium-doped silica glass. Our results reveal a strong enhancement of the Brillouin gain efficiency at 2 μm of more than 50 times that of standard silica optical fibers. A lasing threshold and narrow linewidth of 98 mW and 48 kHz, respectively, have been demonstrated in the tellurite fiber-based laser. This simple Brillouin laser source configuration confirms the potential applications of such fibers for the development of nonlinear photonic devices in the important 2-μm spectral range.
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Dates et versions

hal-02366643 , version 1 (16-11-2019)

Identifiants

  • HAL Id : hal-02366643 , version 1

Citer

Moïse Deroh, Bertrand Kibler, Arnaud Lemiere, F Desevedavy, F Smektala, et al.. 2-μm Brillouin laser based on infrared nonlinear glass fibers. Applied optics, 2019, 58 (23), pp.6365 - 6369. ⟨hal-02366643⟩
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