Study of a Semiconductor Disk Laser with a Wavelength of 780 nm Based on a Heterostructure with AlxGa1 –xAs/AlyGa1 –yAs Quantum Wells under Optical Pumping with Different Radiation Wavelengths

Study of a Semiconductor Disk Laser with a Wavelength of 780 nm Based on a Heterostructure with AlxGa1 –xAs/AlyGa1 –yAs Quantum Wells under Optical Pumping with Different Radiation Wavelengths

We report a study of a semiconductor disk laser (SDL) based on the Al x Ga 1 – x As/Al y Ga 1 – y As heterostructure, emitting at a wavelength near 780 nm, pumped by a pulsed dye laser with emission wavelengths of 601 and 656 nm. Use is made of a structure with a built-in Bragg mirror and 10 quantum...

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Bibliographic Details
Published in:Bulletin of the Lebedev Physics Institute Vol. 50; no. Suppl 12; pp. S1348 - S1355
Main Authors: Kozlovskii, V. I., Zhenishbekov, S. M., Skasyrskii, Ya. K., Frolov, M. P., Andreev, A. Yu, Yarotskaya, I. V., Marmalyuk, A. A.
Format: Journal Article
Language:English
Published: Moscow Pleiades Publishing 01-12-2023
Springer Nature B.V
Subjects:
Diffusion length
Dye lasers
Electron beams
Heterostructures
Lasers
Optical pumping
Physics
Physics and Astronomy
Quantum wells
Radiation
Wavelengths
 
As/Al
As heterostructure
optical pumping
quantum wells
semiconductor disk laser
Ga
Al
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Summary:We report a study of a semiconductor disk laser (SDL) based on the Al x Ga 1 – x As/Al y Ga 1 – y As heterostructure, emitting at a wavelength near 780 nm, pumped by a pulsed dye laser with emission wavelengths of 601 and 656 nm. Use is made of a structure with a built-in Bragg mirror and 10 quantum wells (QWs) arranged in depth with a period equal to half the wavelength of laser radiation in the structure. Under pumping with λ = 601 nm, a power of 9.3 W is reached at a wavelength of 782 nm with a differential efficiency of 12%. Under pumping with λ = 656 nm, the differential efficiency remains almost unchanged, although the pump absorption in depth is more uniform. These results are compared with those obtained previously under pumping by lasers with wavelengths of 450 and 532 nm, as well as under electron-beam pumping. It is concluded that the distribution of nonequilibrium carriers over the QW is largely determined by their diffusion length, which is approximately 1 μm in this structure.
ISSN:1068-3356
1934-838X
DOI:10.3103/S106833562360225X