Room temperature high energy Fe:ZnSe laser pumped by non-chain pulsed HF laser

The results of numerical simulation of thermoelastic stresses arising in F e 2 + : Z n S e crystals, in which the profile of doping with iron ions is a curved surface, are presented. For the conditions of the same specific energy input in the doped region, for different doping profiles, the arising thermoelastic stresses and strains of the crystal were determined, and the thresholds for the appearance of parasitic generation were calculated. It was found that the doping profile in the form of a spherical surface is inferior to the checker doping profile from the point of view of the thermoelastic stresses arising during optical pumping and the possibility of scaling the laser energy.

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Parasitic lasing and thermoelastic deformations in Fe²⁺:ZnSe crystals under high-power pulsed optical pumping

Alekseev

Andronova

Kazantsev

et al. 2021

J. Opt. Soc. Am. B

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Room temperature high energy Fe:ZnSe laser pumped by non-chain pulsed HF laser

Cited by 1 publication

References 10 publications

Parasitic lasing and thermoelastic deformations in Fe²⁺:ZnSe crystals under high-power pulsed optical pumping

Parasitic lasing and thermoelastic deformations in Fe²⁺:ZnSe crystals under high-power pulsed optical pumping

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Room temperature high energy Fe:ZnSe laser pumped by non-chain pulsed HF laser

Cited by 1 publication

References 10 publications

Parasitic lasing and thermoelastic deformations in Fe2+:ZnSe crystals under high-power pulsed optical pumping

Parasitic lasing and thermoelastic deformations in Fe2+:ZnSe crystals under high-power pulsed optical pumping

Contact Info

Product

Resources

About

Parasitic lasing and thermoelastic deformations in Fe²⁺:ZnSe crystals under high-power pulsed optical pumping

Parasitic lasing and thermoelastic deformations in Fe²⁺:ZnSe crystals under high-power pulsed optical pumping