Lasing of Quantum-Dot Micropillar Lasers under Elevated Temperatures

Lasing of Quantum-Dot Micropillar Lasers under Elevated Temperatures

A comprehensive numerical modelling of microcavity parameters for micropillar lasers with optical pumping was presented. The structure with a hybrid dielectric-semiconductor top mirror has a significantly higher calculated quality-factor (~65000 for 5 $\mu$m pillar) due to better vertical mode confi...

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Hauptverfasser: Babichev, Andrey, Makhov, Ivan, Kryzhanovskaya, Natalia, Blokhin, Alexey, Zadiranov, Yuriy, Salii, Yulia, Kulagina, Marina, Bobrov, Mikhail, Vasiliev, Alexey, Blokhin, Sergey, Maleev, Nikolay, Tchernycheva, Maria, Karachinsky, Leonid, Novikov, Innokenty, Egorov, Anton
Format: Artikel
Sprache:eng
Schlagworte:
Physics - Mesoscale and Nanoscale Physics
Physics - Optics
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Zusammenfassung:A comprehensive numerical modelling of microcavity parameters for micropillar lasers with optical pumping was presented. The structure with a hybrid dielectric-semiconductor top mirror has a significantly higher calculated quality-factor (~65000 for 5 $\mu$m pillar) due to better vertical mode confinement. The minimum laser threshold (~370 $\mu$W for 5 $\mu$m pillar) coincided with a temperature of 130 K, which is close to zero gain to cavity detuning. Lasing up to 220 K was demonstrated with a laser threshold of about 2.2 mW.
DOI:10.48550/arxiv.2407.16271