Towards Timetronics with Photonic Systems

TL;DR

This paper proposes a versatile method using traveling wave resonators with temporal modulation to emulate condensed matter phases and create photonic time crystals, enabling practical realization in microwave and optical systems.

Contribution

It introduces a novel approach employing traveling wave resonators with temporal modulation to simulate condensed matter phases in the time domain.

Findings

Feasible experimental parameters for modulation depth and frequency.

Potential for practical realization of photonic time crystals.

Versatility in emulating various condensed matter phases.

Abstract

Periodic driving of particles can create crystalline structures in their dynamics. Such systems can be used to study solid-state physics phenomena in the time domain. In addition, it is possible to realize photonic time crystals and to engineer the wave-number band structure of optical devices by periodic temporal modulation of the properties of light-propagating media. Here we introduce a versatile approach which uses traveling wave resonators to emulate various condensed matter phases in the time dimension. This is achieved by utilizing temporal modulation of the permittivity and the shape of small segments of the resonators. The required frequency and depth of the modulation are experimentally achievable which opens a pathway for the practical realisation of crystalline structures in time in microwave and in optical systems.