In this work, a novel mid-infrared continuous wave laser, based on a fluoroindate fiber co-doped with holmium and neodymium, is designed to emit at λ s = 3.92 μ , when pumped at λ p = 808 nm. The laser is modeled considering a nine-level system, by taking into account experimental spectroscopical parameters. Since the energy transfer coefficients are unknown, they have been evaluated starting from the measured emission spectra of the bulk glass, reported in literature, and comparing their ratio with respect to the ratio between the simulated signal gain coefficients. The designed laser promises higher slope efficiency and power threshold lower than those obtainable with a holmium-heavily-doped fiber, having same fiber section geometry, same refractive indices and pumped at λ p = 888 nm. Slope efficiency η = 16.67 % and input power threshold Pth = 0.2 W are obtained for the fiber length Lfiber = 0.4 m, dopants concentrations NHo = 8 × 1026 ions m3 and N Nd = 1 × 1026 ions m3, and output mirror reflectivity R out = 60%. This result encourages the fabrication of a continuous wave laser based on a Ho:Nd-codoped fluoroindate fiber.
Design of a Mid-IR Laser Based on a Ho:Nd-codoped Fluoroindate Fiber / Loconsole, Antonella Maria; Falconi, Mario Christian; Annunziato, Andrea; Cozic, Solenn; Poulain, Samuel; Prudenzano, Francesco. - In: JOURNAL OF LIGHTWAVE TECHNOLOGY. - ISSN 0733-8724. - STAMPA. - 41:2(2023), pp. 702-708. [10.1109/JLT.2022.3218190]
Design of a Mid-IR Laser Based on a Ho:Nd-codoped Fluoroindate Fiber
Antonella Maria LoconsoleMembro del Collaboration Group
;Mario Christian FalconiMembro del Collaboration Group
;Andrea AnnunziatoMembro del Collaboration Group
;Francesco Prudenzano
Membro del Collaboration Group
2023-01-01
Abstract
In this work, a novel mid-infrared continuous wave laser, based on a fluoroindate fiber co-doped with holmium and neodymium, is designed to emit at λ s = 3.92 μ , when pumped at λ p = 808 nm. The laser is modeled considering a nine-level system, by taking into account experimental spectroscopical parameters. Since the energy transfer coefficients are unknown, they have been evaluated starting from the measured emission spectra of the bulk glass, reported in literature, and comparing their ratio with respect to the ratio between the simulated signal gain coefficients. The designed laser promises higher slope efficiency and power threshold lower than those obtainable with a holmium-heavily-doped fiber, having same fiber section geometry, same refractive indices and pumped at λ p = 888 nm. Slope efficiency η = 16.67 % and input power threshold Pth = 0.2 W are obtained for the fiber length Lfiber = 0.4 m, dopants concentrations NHo = 8 × 1026 ions m3 and N Nd = 1 × 1026 ions m3, and output mirror reflectivity R out = 60%. This result encourages the fabrication of a continuous wave laser based on a Ho:Nd-codoped fluoroindate fiber.| File | Dimensione | Formato | |
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