We demonstrate a hybrid external cavity laser incorporating an integrated side coupled Fabry-Perot (SC-FP) resonator realised on a silicon nitride platform and coupled to a semiconductor optical amplifier. The SC-FP resonator achieves loaded quality factors of up to 6.5 × 105 with on-resonance reflectivity reaching 57%. The hybrid laser exhibits multi-wavelength emission aligned to the SC-FP resonances, with multiple longitudinal modes of the hybrid cavity competing within each resonance. When isolating single resonances, we observe coherent pulse trains with corresponding radiofrequency linewidth as narrow as ∼3 kHz. The system spontaneously generates multiple identical pulse profiles within the laser cavity, effectively multiplying the repetition rate. These results establish SC-FP resonators as promising wavelength-selective reflectors for compact, multi-wavelength hybrid laser systems with potential applications in frequency comb generation for telecommunication and precision spectroscopy.
Multi-wavelength hybrid laser with side-coupled Fabry-Perot silicon nitride resonators / Monopoli, D.; Russell, C.; Maraviglia, N.; Kearney, A.; Badri, S. H.; Rahman, A.; Smyth, F.; Antony, C.; Calo', G.; O'Faolain, L.; Devarapu, G. C. R.. - In: JOURNAL OF LIGHTWAVE TECHNOLOGY. - ISSN 0733-8724. - (2026), pp. 1-8. [10.1109/JLT.2026.3654598]
Multi-wavelength hybrid laser with side-coupled Fabry-Perot silicon nitride resonators
Monopoli D.;Calo' G.;
2026
Abstract
We demonstrate a hybrid external cavity laser incorporating an integrated side coupled Fabry-Perot (SC-FP) resonator realised on a silicon nitride platform and coupled to a semiconductor optical amplifier. The SC-FP resonator achieves loaded quality factors of up to 6.5 × 105 with on-resonance reflectivity reaching 57%. The hybrid laser exhibits multi-wavelength emission aligned to the SC-FP resonances, with multiple longitudinal modes of the hybrid cavity competing within each resonance. When isolating single resonances, we observe coherent pulse trains with corresponding radiofrequency linewidth as narrow as ∼3 kHz. The system spontaneously generates multiple identical pulse profiles within the laser cavity, effectively multiplying the repetition rate. These results establish SC-FP resonators as promising wavelength-selective reflectors for compact, multi-wavelength hybrid laser systems with potential applications in frequency comb generation for telecommunication and precision spectroscopy.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
