Abstract
This joint issue of Optics Express and Optical Materials Express features 17 state-of-the art articles written by authors who participated in the international conference Advanced Solid-State Lasers held in Vienna, Austria, from September 29 to October 3, 2019. This introduction provides a summary of these articles that cover numerous areas of solid-state lasers from materials research to sources and from design to experimental demonstration.
Highlights
Vol 10, No 5 / 1 May 2020 / Optical Materials Express 1303Advanced Solid-State Lasers 2019: focus issue introductionALPHAN SENNAROGLU,1,2,* GREGORY GOODNO,3 SERGEY MIROV,4,5 JOHAN NILSSON,6 ALAN PETERSEN,7 IRINA SOROKINA,8 AND STEFANO TACCHEO9 AbstractThis joint issue of Optics Express and Optical Materials Express features 17 state-ofthe art articles written by authors who participated in the international conference Advanced Solid-State Lasers held in Vienna, Austria, from September 29 to October 3, 2019
Output energies of 29.8 mJ and 81 mJ were obtained during 1 kHz and 10 Hz operation, respectively, resulting in peak power of as high as 90 MW during 10 Hz operation [8]
Nonlinear frequency conversion techniques play a crucial role in attaining new spectral ranges with solid-state lasers
Summary
Vol 10, No 5 / 1 May 2020 / Optical Materials Express 1303Advanced Solid-State Lasers 2019: focus issue introductionALPHAN SENNAROGLU,1,2,* GREGORY GOODNO,3 SERGEY MIROV,4,5 JOHAN NILSSON,6 ALAN PETERSEN,7 IRINA SOROKINA,8 AND STEFANO TACCHEO9 AbstractThis joint issue of Optics Express and Optical Materials Express features 17 state-ofthe art articles written by authors who participated in the international conference Advanced Solid-State Lasers held in Vienna, Austria, from September 29 to October 3, 2019. Development of novel materials processing schemes, spectral filters, and resonator architectures paves the way for the design of generation solid-state lasers. They inscribed and characterized more than 100 tracks in Yb:CALGO crystals and waveguide lasing was achieved with slope efficiencies of up to 57% under pumping with an optically pumped semiconductor laser [1].
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