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Dual-Band Coherent Microwave Photonic Radar Using Linear Frequency Modulated Signals With Arbitrary Chirp Rates

Xiangchuan Wang, Fengting Cao, Cong Ma, Yue Yang, Fangzheng Zhang, Shilong Pan

2023IEEE Journal of Selected Topics in Quantum Electronics26 citationsDOI

Abstract

Multi-band radars can obtain more electromagnetic scattering information of targets in complex electromagnetic environments, but they always suffer from complex configurations, small bandwidth, or fixed waveforms. Here, we propose a dual-band coherent microwave photonic radar, which is simple, reconfigurable, and has a wide operational bandwidth. In the proposed system, dual-band linear frequency modulated (LFM) signals with arbitrary chirp rates and adjustable bandwidths are simultaneously generated based on polarization multiplexing, and de-chirp processed using photonic in-phase and quadrature (I/Q) mixing. By fusing the de-chirped signals, ranging and inverse synthetic aperture radar (ISAR) imaging with a resolution that is proportional to the sum of the instantaneous bandwidths of the two bands is realized. In an experiment, the dual-band microwave photonic radar is built to generate and process dual-band LFM signals with different instantaneous bandwidths and chirp rates covering 18.1–23.1 GHz and 22.9–29.9 GHz. De-chirped signals in the two bands are coherently fused, achieving an equivalent bandwidth of 11.8 GHz and a range resolution of 1.31 cm.

Topics & Concepts

ChirpPhysicsOpticsRadarBandwidth (computing)PhotonicsMicrowaveComputer scienceTelecommunicationsLaserQuantum mechanicsAdvanced Photonic Communication SystemsAdvanced Fiber Laser TechnologiesOptical Network Technologies
Dual-Band Coherent Microwave Photonic Radar Using Linear Frequency Modulated Signals With Arbitrary Chirp Rates | Litcius