Two-State Lasing in Microdisk Laser Diodes with Quantum Dot Active Region

Ivan Makhov; Konstantin Ivanov; Eduard Moiseev; Anna Dragunova; Nikita Fominykh; Yuri Shernyakov; Mikhail Maximov; Natalia Kryzhanovskaya; Alexey Zhukov

doi:10.3390/photonics10030235

Photonics (Feb 2023)

Two-State Lasing in Microdisk Laser Diodes with Quantum Dot Active Region

Ivan Makhov,
Konstantin Ivanov,
Eduard Moiseev,
Anna Dragunova,
Nikita Fominykh,
Yuri Shernyakov,
Mikhail Maximov,
Natalia Kryzhanovskaya,
Alexey Zhukov

Affiliations

Ivan Makhov: International Laboratory of Quantum Optoelectronics, HSE University, Soyuza Pechatnikov Str., 16, 190008 St. Petersburg, Russia
Konstantin Ivanov: International Laboratory of Quantum Optoelectronics, HSE University, Soyuza Pechatnikov Str., 16, 190008 St. Petersburg, Russia
Eduard Moiseev: International Laboratory of Quantum Optoelectronics, HSE University, Soyuza Pechatnikov Str., 16, 190008 St. Petersburg, Russia
Anna Dragunova: International Laboratory of Quantum Optoelectronics, HSE University, Soyuza Pechatnikov Str., 16, 190008 St. Petersburg, Russia
Nikita Fominykh: International Laboratory of Quantum Optoelectronics, HSE University, Soyuza Pechatnikov Str., 16, 190008 St. Petersburg, Russia
Yuri Shernyakov: Ioffe Institute, Polytechnicheskaya Str., 26, 194021 St. Petersburg, Russia
Mikhail Maximov: International Laboratory of Quantum Optoelectronics, HSE University, Soyuza Pechatnikov Str., 16, 190008 St. Petersburg, Russia
Natalia Kryzhanovskaya: International Laboratory of Quantum Optoelectronics, HSE University, Soyuza Pechatnikov Str., 16, 190008 St. Petersburg, Russia
Alexey Zhukov: International Laboratory of Quantum Optoelectronics, HSE University, Soyuza Pechatnikov Str., 16, 190008 St. Petersburg, Russia

DOI: https://doi.org/10.3390/photonics10030235
Journal volume & issue: Vol. 10, no. 3
p. 235

Abstract

Read online

The two-state lasing phenomenon, which manifests itself in simultaneous laser emission through several optical transitions of quantum dots, is studied in microdisk diode lasers with different cavity diameters. The active region represents a multiply stacked array of self-organized InAs/InGaAs/GaAs quantum dots emitting in the wavelength range of 1.1–1.3 µm. Two-state lasing, which involves the ground-state and the first excited-state optical transitions, is observed in microdisks with cavity diameters of 20 to 28 µm, whereas two-state lasing via the first and the second excited-state optical transitions is observed in 9 µm microdisks. The threshold currents for one-state and two-state lasing are investigated as functions of the microdisk diameter. Optical loss in the microdisk lasers is evaluated by comparing the two-state lasing behavior of the microdisks with that of edge-emitting stripe lasers made of the same epitaxial wafer.

Published in Photonics

ISSN: 2304-6732 (Online)
Publisher: MDPI AG
Country of publisher: Switzerland
LCC subjects: Technology: Engineering (General). Civil engineering (General): Applied optics. Photonics
Website: http://www.mdpi.com/journal/photonics

About the journal

Abstract

Keywords