Filter-Free Photonic Microwave I/Q Modulator for Reconfigurable Frequency Mixing

Xu Hua Cao; Jin Feng Du; Gui Jun Ji; Dennis Chi Zhou; Yiu-Kwok Cheng; Ming Li; Ning Hua Zhu; Wei Li

Journal of Lightwave Technology
Vol. 41,
Issue 9,
pp. 2707-2714
(2023)

Filter-Free Photonic Microwave I/Q Modulator for Reconfigurable Frequency Mixing

Xu Hua Cao, Jin Feng Du, Gui Jun Ji, Dennis Chi Zhou, Yiu-Kwok Cheng, Ming Li, Ning Hua Zhu, and Wei Li

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Xu Hua Cao, Jin Feng Du, Gui Jun Ji, Dennis Chi Zhou, Yiu-Kwok Cheng, Ming Li, Ning Hua Zhu, and Wei Li, "Filter-Free Photonic Microwave I/Q Modulator for Reconfigurable Frequency Mixing," J. Lightwave Technol. 41, 2707-2714 (2023)

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Abstract

We report a simple and novel scheme to achieve the reconfigurable frequency mixing based on a filter-free photonic microwave in-phase/quadrature (I/Q) modulator. With proper photodetection configuration, four microwave frequency mixing functions are expediently reconfigured in our system: single-ended mixing, balanced mixing, I/Q mixing and image-reject mixing. The employed crucial optical modulator is a dual-polarization dual-parallel Mach–Zehnder modulator (DPol-DPMZM) driven by in-phase and quadrature intermediate frequency (IF) and local oscillator (LO) signals. The generation and switching of frequency down- and up-conversion and different mixing functions depend on the main direct current (DC) biases of the two sub-DPMZMs, instead of using additional optical hybrid, wavelength division multiplexer (WDM) or two pairs of cascaded polarization controller (PC) and polarization beam splitter (PBS) in previous reports. Our demonstrated experiment shows that the reconfigurable frequency mixer has high mixing spur suppression, frequency tunability, and image rejection ratio (IRR) of over 35 dB. The proposed simple and multifunctional structure may bring a broad potential application in radar and communication systems.

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Journal of Lightwave Technology