Power Limits of Compact Ho3+:YAG Laser Resonators With Homogeneously Doped and Segmented Crystals

Katharina Goth; Katharina Goth; Michael Griesbeck; Marius Rupp; Marius Rupp; Madeleine Eitner; Marc Eichhorn; Marc Eichhorn; Christelle Kieleck

Conference on Lasers and Electro-Optics/Europe (CLEO/Europe 2023) and European Quantum Electronics Conference (EQEC 2023)
Technical Digest Series (Optica Publishing Group, 2023),
paper ca_3_4

Power Limits of Compact Ho³⁺:YAG Laser Resonators With Homogeneously Doped and Segmented Crystals

Katharina Goth, Michael Griesbeck, Marius Rupp, Madeleine Eitner, Marc Eichhorn, and Christelle Kieleck

The European Conference on Lasers and Electro-Optics 2023

Munich Germany
26–30 June 2023
ISBN: 979-8-3503-4599-5

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Novel laser materials (ca_3)

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K. Goth, M. Griesbeck, M. Rupp, M. Eitner, M. Eichhorn, and C. Kieleck, "Power Limits of Compact Ho3+:YAG Laser Resonators With Homogeneously Doped and Segmented Crystals," in Conference on Lasers and Electro-Optics/Europe (CLEO/Europe 2023) and European Quantum Electronics Conference (EQEC 2023), Technical Digest Series (Optica Publishing Group, 2023), paper ca_3_4.

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Abstract

Laser light from Ho³⁺:YAG crystals in the 2 µm range has a variety of applications like remote sensing, medical applications, or the pumping of optical parametric oscillators for the generation of mid-infrared radiation. When working with this quasi-three-level laser material, a high pump intensity is required which can be generated in an end-pumped design. However, such a design leads to a large longitudinal temperature gradient resulting from the exponential absorption of the pump light. One approach to decrease the temperature peak at the front of the crystal and therefore reduce temperature-induced stresses in the crystal is the use of diffusion-bonded crystals consisting of multiple segments with increasing doping concentrations along the crystal axis [1].

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