Integrated all-optical nonreciprocity based on a moving index grating.

Abstract

Optical nonreciprocal devices are critical components in integrated photonic systems and scalable quantum technologies. We propose an all-optical approach to achieve integrated optical nonreciprocity utilizing a moving index grating. The grating is generated in a nonlinear optical waveguide through the Kerr effect by driving the waveguide with two counter-propagating pump fields of slightly different frequencies. Based on this moving index grating, our system exhibits exceptional versatility by achieving both nonreciprocal transmission and reflection of signal fields. We obtain an all-optical isolator that achieves near-unity isolation contrast and negligible insertion loss while effectively addressing the dynamic reciprocity challenge. Our protocol establishes a novel approach for achieving integrated all-optical nonreciprocal devices, paving the way for advanced integrated photonic circuits.