Litcius/Paper detail

High-power single-mode triple-ridge waveguide semiconductor laser based on supersymmetry

Xiaolei Zhao, Siwei Zeng, Lance Sweatt, Lin Zhu

2021AIP Advances20 citationsDOIOpen Access PDF

Abstract

To achieve a high-power single-transverse mode laser, we here propose a supersymmetry-based triple-ridge waveguide semiconductor laser structure, which is composed of an electrically pumped main broad-ridge waveguide located in the middle and a pair of lossy auxiliary partner waveguides. The auxiliary partner waveguides are designed to provide dissipative modes that can phase match and couple with the higher-order modes in the main waveguide. By appropriately manipulating the gain–loss discrimination of the modes in the laser cavity, one can effectively suppress all the undesired higher-order transverse modes while keeping the fundamental one almost unaffected, thereby ensuring stable single-mode operation with a larger emitting aperture and accordingly a higher output power than a conventional single-transverse-mode ridge waveguide diode laser.

Topics & Concepts

WaveguideLaserTransverse modeOpticsSemiconductor laser theoryRidgePhysicsPower (physics)Aperture (computer memory)Transverse planeLaser power scalingDissipative systemOptoelectronicsMaterials scienceEngineeringGeologyPaleontologyAcousticsStructural engineeringQuantum mechanicsAdvanced Fiber Laser TechnologiesQuantum Mechanics and Non-Hermitian PhysicsNonlinear Photonic Systems
High-power single-mode triple-ridge waveguide semiconductor laser based on supersymmetry | Litcius