Title: Broadband microwave signal generation with programmable chirp shapes via low-speed electronics-controlled phase-modulated optical loop

Abstract: Broadband microwave signals with customized chirp shapes are highly captivating in practical applications. Compared with electronic technology, photonic solutions are superior in bandwidth, but suffer from flexible and rapid manipulation of chirp shape. Here, we demonstrate a novel concept for generating broadband microwave signals with programmable chirp shapes. It is realized on a simple fiber-optic platform involving a continuous-wave laser, a phase-modulated optical loop, low-speed electronics at MHz, and an optical coherent receiver. Microwave signals with bandwidths beyond tens of GHz, even up to hundreds of GHz, can be generated, where the chirp shape is identical to the low-frequency driving waveform of the phase-modulated optical loop. Besides, signal parameters, such as bandwidth, center frequency, and temporal duration, can be reconfigured in real time. In the experiment, highly-coherent microwave signals with various customized chirp shapes are generated, where the time resolution for programming the chirp shape is 649 ps. The center frequency and bandwidth tuning ranges exceed 21 GHz, and the temporal duration is tuned in the range of 9 ns to 180 ns.