Abstract

To date, Ho³⁺-doped fluoride fibers have been investigated as a viable route for deep-red fiber lasers. However, high output performance deep-red fiber lasers around 750 nm have been proven challenging to achieve due to limitations in both the excitation source and pumping mechanism. In this study, we use a home-made 640 nm pump source to develop a deep-red laser with a high pumping rate, and obtain a compact watt-level high efficiency deep-red laser output. Population inversion is achieved by strong excited state absorption in a Ho³⁺-doped ZBLAN fiber. We realize a maximum 1.46 W deep-red fiber laser operating at 752.6 nm, and its slope efficiency is as high as 53%. The improved rate equations are used to describe the quasi-four-level system, and the experimental results agree well with the simulations. Moreover, with the development of blazed grating, we demonstrate a tunable deep-red fiber laser with a tuning range of 13.7 nm, from 746.5 to 760.2 nm, which is the widest tuning range of Ho³⁺-doped fiber laser at deep-red wavelengths.

High performance visible generation of Ho³⁺-doped all-fiber lasers

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Watt-level short-length holmium-doped ZBLAN fiber lasers at 1.2  μm

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Red-diode-clad-pumped CW and mode-locked Er:ZBLAN fiber laser at 3.5 µm

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Opt. Express 30(7) 11174-11180 (2022)