M.R. Mahani, I.A. Nechepurenko, Y. Rahimof, and A. Wicht

Published in:

Opt. Express, vol. 33, no. 6, pp. 13519-13529, doi:10.1364/OE.557803 (2025).

Abstract:

Frequency shift detection is crucial for advancing quantum, laser and metrology technologies. Here, we propose a compact design for detecting frequency shift in GaAs waveguides with mode-coupled Bragg gratings, which provides enhanced sensitivity. Our proposed architecture features a main ridge waveguide with a Bragg grating, flanked by two curved ridge waveguides. This configuration exhibits an optical phenomenon characterized by a transmission crossing at the wavelength of the Bragg grating. Using particle swarm optimization and employing efficient figures of merit, we achieve a high transmission crossing. The observed asymmetric transmission crossing not only holds the promise for a compact on-chip laser frequency stabilizer, but also fosters the development of novel sensing platforms with heightened sensitivity.

Topics:

Effective refractive index, Laser sources, Mode conversion, Modulation techniques, Waveguide gratings, Waveguides

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