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Chip-based soliton microcomb module using a hybrid semiconductor laser

Arslan S. Raja, Junqiu Liu, Nicolas Volet, Rui Ning Wang, Jijun He, Erwan Lucas, Romain Bouchandand, Paul A. Morton, John E. Bowers, Tobias J. Kippenberg

2020Optics Express30 citationsDOIOpen Access PDF

Abstract

Photonic chip-based soliton microcombs have shown rapid progress and have already been used in many system-level applications. There has been substantial progress in realizing soliton microcombs that rely on compact laser sources, culminating in devices that only utilize a semiconductor gain chip or a self-injection-locked laser diode as the pump source. However, generating single solitons with electronically detectable repetition rates from a compact laser module has remained challenging. Here we demonstrate a current-initiated, Si 3 N 4 chip-based, 99-GHz soliton microcomb driven directly by a compact, semiconductor-based laser. This approach does not require any complex soliton tuning techniques, and single solitons can be accessed by tuning the laser current. Further, we demonstrate a generic, simple, yet reliable, packaging technique to facilitate the fiber-chip interface, which allows building a compact soliton microcomb package that can benefit from the fiber systems operating at high power (> 100 mW). Both techniques can exert immediate impact on chip-based nonlinear photonic applications that require high input power, high output power, and interfacing chip-based devices to mature fiber systems.

Topics & Concepts

LaserSolitonChipPhotonicsOptoelectronicsFiber laserSemiconductor laser theoryOpticsInterfacingPower (physics)PhysicsComputer scienceMaterials scienceNonlinear systemTelecommunicationsComputer hardwareQuantum mechanicsAdvanced Fiber Laser TechnologiesPhotonic Crystal and Fiber OpticsPhotonic and Optical Devices
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