Dysprosium gain-switched fiber laser at 3.24 µm pumped at 1064 nm

Jobin, Frédéric; Aydın, Yiğit Ozan; Bernier, Martin; Vallée, Réal

doi:10.1364/optcon.480593

Cited by 5 publications

(2 citation statements)

References 30 publications

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“…Pajewski et al and Luo et al fabricated a gain-switched Dy 3+ -doped ZBLAN fiber laser [18,19]. Recently, Jobin et al reported a 3.24 µm gain-switched fiber laser pumped by 1064 nm [20].…”

Section: Introductionmentioning

confidence: 99%

An experimental and theoretical study on Dy³⁺-doped ZBLAN fiber laser, core-pumped at 1.1 μm

Jung,

Lee,

Kim

et al. 2024

Laser Phys.

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An experimental and theoretical investigation into a core-pumped Dy3+-doped ZBLAN fiber laser with 1.1 μm pumping was conducted to figure out a configuration for better slope efficiency. First, the laser was experimentally constructed with a simple Fabry–Pérot cavity incorporating AlF3 no-core fiber endcaps. The maximum output power of 607 mW was obtained readily with a slope efficiency of 25%. Next, a 5-energy level model was adopted for a numerical simulation to figure out the optimum output mirror reflectivity for the particular experimental laser setup in terms of slope efficiency. The best slope efficiency of 30% was shown to be obtainable with an output mirror of a 22% reflection.

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“…Pajewski et al and Luo et al fabricated a gain-switched Dy 3+ -doped ZBLAN fiber laser [18,19]. Recently, Jobin et al reported a 3.24 µm gain-switched fiber laser pumped by 1064 nm [20].…”

Section: Introductionmentioning

confidence: 99%

An experimental and theoretical study on Dy³⁺-doped ZBLAN fiber laser, core-pumped at 1.1 μm

Jung,

Lee,

Kim

et al. 2024

Laser Phys.

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“…In that work, Dy−doped multi-component phosphate core glass fiber was successfully drawn by using a rod-in-tube method. Fluoride fibers have been recently employed to build novel Mid-IR sources as well [21], [22]. Furthermore, in [23], another Dy−doped NaLa(WO 4 ) 2 glass ceramic fiber with good uniformity was fabricated using the molten core method showing that it can be a very promising material candidate for tunable yellow lasers [23].…”

Section: Introductionmentioning

confidence: 99%

Analysis and Optimization of Dysprosium-Doped Yellow Fiber Lasers for Ophthalmology Applications

Khozeymeh,

Poli,

Chowdhury

et al. 2024

IEEE Photonics J.

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In this paper, a Forward Time Centered Space (FTCS) method and an analytical method have been developed to fully investigate the 4 F 9/2 to 6 H 13/2 lasing transition of a dysprosium Dy−doped ZBLAN fiber which provides the potential of highly efficient yellow laser direct generation. This light source is of significant interest for treating diabetic retinopathy, which can cause blindness. The developed method's validity is confirmed through the comparison with experimental investigations of Dy−doped ZBLAN fiber lasers in other valid research. A full analysis of Dy−doped fiber laser including the population of the energy levels, power evolution of the laser and pump signals, amplified spontaneous emission (ASE), excited state absorption (ESA), radiative and non-radiative time transition rates are presented. The developed numerical method gives a better understanding of the impact of ASE and ESA on laser performance. The influence of overlap integrals, output mirror reflectivity, and active fiber length on laser performance is investigated. The optimization criteria based on the different robust configurations of laser cavities are found which predict the slope efficiencies higher than half of the Stokes limit.

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Gain-switched 3 μm dysprosium-doped fluoride fiber laser pumped at 1.7 μm

Xiao,

et al. 2024

Optics & Laser Technology

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Dysprosium gain-switched fiber laser at 3.24 µm pumped at 1064 nm

Cited by 5 publications

References 30 publications

An experimental and theoretical study on Dy³⁺-doped ZBLAN fiber laser, core-pumped at 1.1 μm

An experimental and theoretical study on Dy³⁺-doped ZBLAN fiber laser, core-pumped at 1.1 μm

Analysis and Optimization of Dysprosium-Doped Yellow Fiber Lasers for Ophthalmology Applications

Gain-switched 3 μm dysprosium-doped fluoride fiber laser pumped at 1.7 μm

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Dysprosium gain-switched fiber laser at 3.24 µm pumped at 1064 nm

Cited by 5 publications

References 30 publications

An experimental and theoretical study on Dy3+-doped ZBLAN fiber laser, core-pumped at 1.1 μm

An experimental and theoretical study on Dy3+-doped ZBLAN fiber laser, core-pumped at 1.1 μm

Analysis and Optimization of Dysprosium-Doped Yellow Fiber Lasers for Ophthalmology Applications

Gain-switched 3 μm dysprosium-doped fluoride fiber laser pumped at 1.7 μm

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Product

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An experimental and theoretical study on Dy³⁺-doped ZBLAN fiber laser, core-pumped at 1.1 μm

An experimental and theoretical study on Dy³⁺-doped ZBLAN fiber laser, core-pumped at 1.1 μm