posted on 2024-06-14, 09:14authored byDaria Sokol, Nikita Dmitriev, Dmitry Chermoshentsev, Sergey Koptyaev, Anatoly Masalov, Valery Lobanov, Igor Bilenko, Artem Shitikov
Laser diodes are widely used and play a crucial role in myriad modern applications including nonlinear optics and photonics. Here, we explore the four-wave mixing effect in a laser diode gain medium induced by the feedback from the high-Q microring resonator. This phenomenon can be observed at laser frequency scan close to the microresonator eigenfrequency, prior to the transition of the laser diode from a free-running to a self-injection locking regime. The effect opens up the possibility for generation of remarkably low-noise, stable, and adjustable microwave signals. We provide detailed numerical study of this phenomena proven with experimental results and demonstrate the generation of the signals in the GHz-range. The obtained results reveal the stability of such regime and disclose the parameters' ranges enabling to achieve it. Cumulatively, our findings uncover novel laser diode operation regime and pave the way for the creation of a new type chip-scale, low-noise microwave sources, which are highly demand for diverse applications, including telecommunication, metrology and sensing.