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Mateo CM, Brauch U, Schwarzbäck T, et al. Enhanced efficiency of AlGaInP disk laser by in-well pumping. Opt Express. 2015;23(3):2472-86doi: 10.1364/OE.23.002472.
Mateo, C. M., Brauch, U., Schwarzbäck, T., Kahle, H., Jetter, M., Abdou Ahmed, M., Michler, P., & Graf, T. (2015). Enhanced efficiency of AlGaInP disk laser by in-well pumping. Optics express, 23(3), 2472-86. https://doi.org/10.1364/OE.23.002472
Mateo, C M N, et al. "Enhanced efficiency of AlGaInP disk laser by in-well pumping." Optics express vol. 23,3 (2015): 2472-86. doi: https://doi.org/10.1364/OE.23.002472
Mateo CM, Brauch U, Schwarzbäck T, Kahle H, Jetter M, Abdou Ahmed M, Michler P, Graf T. Enhanced efficiency of AlGaInP disk laser by in-well pumping. Opt Express. 2015 Feb 09;23(3):2472-86. doi: 10.1364/OE.23.002472. PMID: 25836115.
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Opt Express. 2015 Feb 09;23(3):2472-86. doi: 10.1364/OE.23.002472.

Enhanced efficiency of AlGaInP disk laser by in-well pumping.

Optics express

C M N Mateo, U Brauch, T Schwarzbäck, H Kahle, M Jetter, M Abdou Ahmed, P Michler, T Graf

PMID: 25836115 DOI: 10.1364/OE.23.002472

Abstract

The performance of a 665-nm GaInP disk laser operated continuous-wave at 15°C both in-well-pumped at 640 nm and barrier pumped at 532 nm is reported. The efficiency with respect to the absorbed power was enhanced by 3.5 times when using a 640-nm pump instead of a 532-nm pump. In-well pumping which is based on the absorption of the pump photons within the quantum-well heterostructures of the gain region instead of short-wavelength absorption in the barrier and spacer regions reduces the quantum defect between pump and laser photon and hence the heat generation. A slope efficiency of 60% with respect to the absorbed pump power was obtained by in-well pumping at 15°C. Continuous-wave laser operation was further demonstrated at heat sink temperatures of up to 55°C. Both the measurement of photoluminescence and COMSOL simulation show that the overall heat load in the in-well pumped laser is smaller than in the barrier-pumped laser. These results demonstrate the potential of optical in-well pumping for the operation of red AlGaInP disk lasers if combined with means for efficient pump-light absorption.

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