A. A. Beckman scite author profile

The temperature characteristics of ring lasers with a diameter of 480 μm of an original design with an active region based on 10 layers of InAs/InGaAs/GaAs quantum dots are studied. The lasers demonstrated a low threshold current density (200 A/cm2 at 20oC), the characteristic temperature of the threshold current in the range of 20-100oC was 68 K, the maximum lasing temperature was as high as 130oC. These values are only slightly inferior to the parameters of the edge-emitting lasers fabricated from the same epitaxial wafer. Keywords: semiconductor ring lasers, InAs/GaAs quantum dots, optical waveguide, temperature characteristics.

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Progress of Edge-Emitting Diode Lasers Based on Coupled-Waveguide Concept

Han

Wang

Gordeev

et al. 2023

Micromachines

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Semiconductor lasers have developed rapidly with the steady growth of the global laser market. The use of semiconductor laser diodes is currently considered to be the most advanced option for achieving the optimal combination of efficiency, energy consumption, and cost parameters of high-power solid-state and fiber lasers. In this work, an approach for optical mode engineering in planar waveguides is investigated. The approach referred to as Coupled Large Optical Cavity (CLOC) is based on the resonant optical coupling between waveguides and allows the selection of high-order modes. The state-of-art of the CLOC operation is reviewed and discussed. We apply the CLOC concept in our waveguide design strategy. The results in both numerical simulation and experiment show that the CLOC approach can be considered a simple and cost-efficient solution for improving diode laser performance.

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Two-state lasing in injection microdisks with InAs/InGaAs quantum dots

Makhov

Beckman

Kulagina

et al. 2022

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Spectral dependencies of the electroluminescence intensity of a microdisk laser with a diameter of 31 μm with active region based on InAs/InGaAs quantum dots, operating in the continuous-wave regime, are investigated in a wide range of injection currents. Simultaneous lasing through the ground and excited states of quantum dots under intense excitation is demonstrated in injection microdisk laser for the first time. At low pumping powers lasing occurs via ground states of quantum dots only. Keywords: microlaser, quantum dots, two-state lasing, ground state, excited state.

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A. A. Beckman

Thermal properties of coupled-waveguide-based semiconductor lasers

Reducing thermal resistance of high-power semiconductor diode lasers with coupled waveguides

Temperature-dependent characteristics of 1.3 μm InAs/InGaAs/GaAs quantum dot ring lasers

Progress of Edge-Emitting Diode Lasers Based on Coupled-Waveguide Concept

Two-state lasing in injection microdisks with InAs/InGaAs quantum dots

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