High speed data transmission using directly modulated microdisk lasers based on InGaAs/GaAs quantum well-dots

Fedor Zubov; Mikhail Maximov; Mikhail Maximov; Natalia Kryzhanovskaya; Eduard Moiseev; Maria Muretova; Alexey Mozharov; Nikolay Kaluzhnyy; Sergey Mintairov; Marina Kulagina; Nikolay Ledentsov; Lukasz Chorchos; Lukasz Chorchos; Nikolay Ledentsov; Alexey Zhukov

doi:10.1364/OL.44.005442

Optics Letters
Vol. 44,
Issue 22,
pp. 5442-5445
(2019)
•https://doi.org/10.1364/OL.44.005442

High speed data transmission using directly modulated microdisk lasers based on InGaAs/GaAs quantum well-dots

Fedor Zubov, Mikhail Maximov, Natalia Kryzhanovskaya, Eduard Moiseev, Maria Muretova, Alexey Mozharov, Nikolay Kaluzhnyy, Sergey Mintairov, Marina Kulagina, Nikolay Ledentsov, Lukasz Chorchos, Nikolay Ledentsov, and Alexey Zhukov

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Fedor Zubov, Mikhail Maximov, Natalia Kryzhanovskaya, Eduard Moiseev, Maria Muretova, Alexey Mozharov, Nikolay Kaluzhnyy, Sergey Mintairov, Marina Kulagina, Nikolay Ledentsov, Lukasz Chorchos, Nikolay Ledentsov, and Alexey Zhukov, "High speed data transmission using directly modulated microdisk lasers based on InGaAs/GaAs quantum well-dots," Opt. Lett. 44, 5442-5445 (2019)

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Abstract

We report on direct large signal modulation and the reliability studies of microdisk lasers based on InGaAs/GaAs quantum well-dots. A 23 μm in diameter microlaser exhibits an open eye diagram up to 12.5 Gbit/s and is capable of error-free 10 Gbit/s data transmission at 30°C without temperature stabilization. The ageing tests of a 31 μm in diameter microdisk laser were conducted at room and elevated temperatures during more than 1200 hr. The average rate of the output power degradation was about 25 and 29 nW/hr at 40°C and 60°C, respectively.

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Optics Letters