AI Article Synopsis
- The study discusses continuous-wave alexandrite microchip lasers that operate at two specific wavelengths: 680.4 nm and 749.5 nm.
- A laser diode that emits 3.5 W at approximately 445 nm was used to pump these lasers.
- The results showed that the microchip lasers produced over 210 mW at 680.4 nm and 570 mW at 749.5 nm, with slope efficiencies of 15% and 39%, respectively.
Article Abstract
We report on a continuous-wave alexandrite (Cr:BeAlO) microchip lasers operating at 680.4 nm and 749.5 nm laser wavelengths. Microchip resonators were realized by dielectric mirrors directly deposited on the alexandrite crystal surfaces. InGaN laser diode providing up to 3.5 W of the output power at ∼445 nm wavelength was used as a pump source. More than 210 mW and 570 mW of the laser radiation have been extracted from the microchip laser systems at 680.4 nm and 749.5 nm wavelengths, respectively. The corresponding slope efficiencies related to absorbed pump power were 15 % and 39 %.
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| http://dx.doi.org/10.1364/OE.27.016975 | DOI Listing |
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