4.8 Article

Wideband-Tunable on-Chip Microwave Photonic Filter with Ultrahigh-Q U-Bend-Mach-Zehnder-Interferometer-Coupled Microring Resonators

Journal

LASER & PHOTONICS REVIEWS
Volume -, Issue -, Pages -

Publisher

WILEY-V C H VERLAG GMBH
DOI: 10.1002/lpor.202300347

Keywords

microwave photonic filters; miniaturized microwave signal processing systems; Mach-Zehnder interferometers; high-Q microring resonators; ultra low silicon waveguides

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This research proposes a wideband-tunable on-chip microwave photonic filter (MPF) that integrates a dual-drive Mach-Zehnder modulator (DDMZM) and ultrahigh-Q Mach-Zehnder-interferometer (MZI)-coupled microring resonators (MRRs) in cascade. The MPF achieves tunable resonance wavelength and bandwidth by introducing U-bend-MZI-coupled MRRs. The introduction of two cascaded U-bend-MZI-coupled MRRs enables the MPF to have high extinction ratio (ER) flat-top bandstop (or bandpass) responses and a tunable 3 dB bandwidth.
Microwave photonic filters are a key fundamental subsystem in microwave photonics. A wideband-tunable on-chip microwave photonic filter (MPF), which monolithically integrates a dual-drive Mach-Zehnder modulator (DDMZM), is proposed with ultrahigh-Q Mach-Zehnder-interferometer (MZI)-coupled microring resonators (MRRs) in cascade and a high-speed photodetector (PD). It is the first time an MPF has been developed by introducing U-bend-MZI-coupled MRRs whose resonance wavelength and 3 dB bandwidth are tunable. In particular, the ultrahigh-Q U-bend-MZI-coupled MRRs are realized with ultralow loss broadened silicon waveguides based on a modified Euler curve. For the fabricated U-bend-MZI-coupled MRRs, which have an effective radius of 29 & mu;m, the Q-factor is as high as 1.3 x 10(6), while the free spectral range (FSR) is as large as 113 GHz. Furthermore, the introduction of two cascaded U-bend-MZI-coupled MRRs enables the MPF to have flat-top bandstop (or bandpass) responses with a high extinction ratio (ER) of 20-35 dB as well as a tunable 3 dB bandwidth of 0.15-3 GHz. Meanwhile, the central frequency can be tuned thermally from 2 to 40 GHz. The work provides a feasible route to realize a compact, high spectral resolution, and wideband-tunable MPF on silicon, enabling a range of RF applications from wireless communication to flexible high-frequency microwave photonic signal processing.

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