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gain chip

Optically-Pumped-Semiconductor-Laser-Brochure.pdf

Optically-Pumped-Semiconductor-Laser-Brochure.pdf

…multiple OPSL chips inside the cavity. Powers up to 70W have been demonstrated. Increasing the output power in any solid-state laser based on a diode-pumped, rodshaped gain medium produces a thermal lens effect that must be exactly balanced by other cavity optics. Because the OPSL gain medium is a…

Sapphire-Advantages-Summary.pdf

Sapphire-Advantages-Summary.pdf

…available with powers up to 300 mW. Output powers of up to 500 mW can be reached with slightly larger Sapphire HP models. Plus the thin (10 µm) gain chip is effectively cooled from its rear surface and does not create a thermal lens. Together, this enables the power of any Sapphire laser to be…

Optically-Pumped-Semiconductor-Laser-Brochure.pdf

Optically-Pumped-Semiconductor-Laser-Brochure.pdf

…pumping, is benefiting from OPSL technology. The Verdi G Series offers multi-watt performance today.The zero upper state lifetime of an OPSL gain chip enables the lowest amplitude noise, instrumental to state-ofthe-art ultrafast applications. The new Verdi G series equals or exceeds the leading…

Optically-Pumped-Semiconductor-Laser-Brochure.pdf

Optically-Pumped-Semiconductor-Laser-Brochure.pdf

…pumping, is benefiting from OPSL technology. The Verdi G Series offers multi-watt performance today.The zero upper state lifetime of an OPSL gain chip enables the lowest amplitude noise, instrumental to state-ofthe-art ultrafast applications. The new Verdi G series equals or exceeds the leading…

Optically-Pumped-Semiconductor-Laser-Brochure.pdf

Optically-Pumped-Semiconductor-Laser-Brochure.pdf

…pumping, is benefiting from OPSL technology. The Verdi G Series offers multi-watt performance today.The zero upper state lifetime of an OPSL gain chip enables the lowest amplitude noise, instrumental to state-ofthe-art ultrafast applications. The new Verdi G series equals or exceeds the leading…

Optically-Pumped-Semiconductor-Laser-Brochure.pdf

Optically-Pumped-Semiconductor-Laser-Brochure.pdf

…produce wavelengths in the UV and visible spectrum. The key element of an OPSL is the OPS chip which serves as a gain medium and a cavity mirror simultaneously. This monolithic III-V semiconductor chip contains GaAS layers to absorb the IR light of a semiconductor pump diode alternated with InGaAs…

Optically-Pumped-Semiconductor-Laser-Brochure.pdf

Optically-Pumped-Semiconductor-Laser-Brochure.pdf

…produce wavelengths in the UV and visible spectrum. The key element of an OPSL is the OPS chip which serves as a gain medium and a cavity mirror simultaneously. This monolithic III-V semiconductor chip contains GaAS layers to absorb the IR light of a semiconductor pump diode alternated with InGaAs…

Optically-Pumped-Semiconductor-Laser-Brochure.pdf

Optically-Pumped-Semiconductor-Laser-Brochure.pdf

…produce wavelengths in the UV and visible spectrum. The key element of an OPSL is the OPS chip which serves as a gain medium and a cavity mirror simultaneously. This monolithic III-V semiconductor chip contains GaAS layers to absorb the IR light of a semiconductor pump diode alternated with InGaAs…

Laser Focus World - August 2017

Laser Focus World - August 2017

…scaling, the technology is power-scalable and power-adjustable because there is no thermal lensing as in crystal-based lasers. The large-area gain chip also naturally supports a TEM00 circular output beam. Once limited to the red and blue, laser diodes are now available at several visible…

Laser Focus World - January 2015

Laser Focus World - January 2015

…and laser diodes. OPSL technology addresses this because it is wavelength scalable; the fundamental wavelength output by the semiconductor gain chip can be customized by changing the composition and size of the active quantum wells. As a result, OPSLs have been developed at several new strategic…

Laser Focus World - January 2015

Laser Focus World - January 2015

…and laser diodes. OPSL technology addresses this because it is wavelength scalable; the fundamental wavelength output by the semiconductor gain chip can be customized by changing the composition and size of the active quantum wells. As a result, OPSLs have been developed at several new strategic…

Laser Focus World - January 2015

Laser Focus World - January 2015

…and laser diodes. OPSL technology addresses this because it is wavelength scalable; the fundamental wavelength output by the semiconductor gain chip can be customized by changing the composition and size of the active quantum wells. As a result, OPSLs have been developed at several new strategic…

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