All-optical high-order subharmonic mixer with a high signal-to-noise ratio and stable performance

A photonics-based high -order subharmonic mixer, which enables a low -frequency LO source to be used for highfrequency RF signal frequency downconversion, is presented. It is based on an optically injected semiconductor laser, which is oscillated in the period -one state, sandwiched between two optical phase modulators. It has the advantages of a simple and compact structure, wide bandwidth, absence of electrical components, reconfigurable subharmonic mixing operation, stable output IF signal performance, high signal-to-noise ratio, infinite LO-to-RF port isolation, and high LO -to -IF port isolation. Furthermore, it is suitable for use in remote antenna applications. We set up a proof -of -concept experiment that demonstrates a reconfigurable second-, fourth-, sixth-, and eighth -order subharmonic mixing operation for different input RF signal frequencies and powers. The experimental results also demonstrate that the proposed structure exhibits a stable output IF signal performance, which overcomes the IF signal phase stability problem in the reported high -order subharmonic mixers. (c) 2024 Optica Publishing Group