Spontaneous mode locking of a multimode semiconductor laser under continuous wave operation

Spontaneous mode locking of a multimode semiconductor laser under continuous wave operation

Self-starting mode-locking is observed in a laser based on a compact III-V diode-pumped quantum-well surface-emitting semiconductor laser technology with a saturable-absorber-free but dispersive cavity. Continuous wave generation of picosecond pulses at a rate of 100 GHz is demonstrated by recording...

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Veröffentlicht in:Frontiers in photonics 2023-03, Vol.4
Hauptverfasser: Chomet, Baptiste, Blin, Stéphane, Beaudoin, Grégoire, Pantzas, Konstantinos, Sagnes, Isabelle, Denet, Stéphane, Garnache, Arnaud
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Optics
Photonic
Physics
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container_title Frontiers in photonics
container_volume 4
creator Chomet, Baptiste
Blin, Stéphane
Beaudoin, Grégoire
Pantzas, Konstantinos
Sagnes, Isabelle
Denet, Stéphane
Garnache, Arnaud
description Self-starting mode-locking is observed in a laser based on a compact III-V diode-pumped quantum-well surface-emitting semiconductor laser technology with a saturable-absorber-free but dispersive cavity. Continuous wave generation of picosecond pulses at a rate of 100 GHz is demonstrated by recording microwave intensity noises, beat frequency, time-resolved optical spectra, and intensity autocorrelation. Coherence of the pulse train is obtained through the frequency noise measurement of the demodulated beat note, demonstrating a timing jitter as low as 110 fs, near the quantum limit. Using a theoretical model based on a generalized Haus master equation, we demonstrate the existence of this mode locked state without the need for saturable absorption. The fundamental physical mechanism is the interplay between self-phase modulation and anomalous dispersion like in cavity soliton together with light–matter interaction-induced time symmetry breaking.
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Optics
Photonic
Physics
title Spontaneous mode locking of a multimode semiconductor laser under continuous wave operation
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