Yu. K. Bobretsova scite author profile

Yu. K. Bobretsova

5Publications

30Citation Statements Received

0Citation Statements Given

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Ioffe Institute

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Measurements of internal optical loss inside an operating laser diode

Veselov

Bobretsova

Leshko

et al. 2019

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An experimental technique for measuring internal optical loss in high-power edge-emitting semiconductor lasers is demonstrated. The technique is based on coupling a probe beam into the waveguide of a pulse-pumped laser diode. It allows measuring free-carrier absorption (FCA) in a laser heterostructure at different temperatures and at pump current levels up to 30 kA/cm2. Measurement results are presented for two laser heterostructure designs, which vary in the waveguide doping level and material. For both heterostructures, the pump current increase induces a significant rise in FCA and a corresponding increase in internal optical loss, from 0.4–0.7 cm−1 at the threshold current to 2–2.5 cm−1 at 15 kA/cm2. At higher temperatures, the dependence is even stronger and the internal optical loss rises to 6 cm−1 (65 °C, 27 kA/cm2). The gradient of the FCA current dependence is lower for the laser heterostructure with a doped GaAs waveguide, while the heterostructure with an undoped AlGaAs waveguide displays a larger increase in FCA but better internal quantum efficiency at high currents. These results show that the proposed experimental method has significant potential.

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Optical Gain in Laser Heterostructures with an Active Area Based on an InGaAs/InGaAlAs Superlattice

Karachinsky¹,

Novikov

Babichev

et al. 2019

Opt. Spectrosc.

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High-power (>1 W) room-temperature quantum-cascade lasers for the long-wavelength IR region

Dudelev¹,

Mikhailov²,

Babichev³

et al. 2020

Quantum Electron.

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Study of the pulse characteristics of semiconductor lasers with a broadened waveguide at low temperatures (110–120 K)

et al. 2016

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Optical Gain of 1550-nm Range Multiple-Quantum-Well Heterostructures and Limiting Modulation Frequencies of Vertical-Cavity Surface-Emitting Lasers Based on Them

et al. 2018

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Yu. K. Bobretsova

Measurements of internal optical loss inside an operating laser diode

Optical Gain in Laser Heterostructures with an Active Area Based on an InGaAs/InGaAlAs Superlattice

High-power (>1 W) room-temperature quantum-cascade lasers for the long-wavelength IR region

Study of the pulse characteristics of semiconductor lasers with a broadened waveguide at low temperatures (110–120 K)

Optical Gain of 1550-nm Range Multiple-Quantum-Well Heterostructures and Limiting Modulation Frequencies of Vertical-Cavity Surface-Emitting Lasers Based on Them

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