Monolithic Kerr-Lens-Modelocked 2.2-GHz Yb:Y2 O3 Oscillator, Amplified by a Semiconductor Optical Amplifier
2023 Conference on Lasers and Electro-Optics Europe & European Quantum Electronics Conference (CLEO/Europe-EQEC)(2023)
Abstract
Yb-doped crystals are an attractive gain medium for laser platforms designed for quantum and ultrafast applications due to the efficient pumping widely available and ability to reliably modelock using Kerr-lens technique [1], [2]. We recently presented a reliable and robust embodiment of a 1.5-GHz Kerr-lens-modelocked Yb:ceramic laser using a proprietary optical bonding approach [3]. Here, we now report the extension of this to a fully bonded 2.2-GHz turnkey prototype as well as its power scaling using chirped-pulse amplification.
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Key words
1.5-GHz Kerr-lens-modelocked Yb:ceramic laser,2.2-GHz turnkey prototype,chirped-pulse amplification,frequency 2.2 GHz,gain medium,Kerr-lens technique,laser platforms,monolithic Kerr-lens-modelocked oscillator,power scaling,proprietary optical bonding approach,quantum applications,reliable embodiment,robust embodiment,semiconductor optical amplifier,ultrafast applications,Y2O3:Yb/ss,Yb-doped crystals
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