Photons Squeezing Model in a Nonlinear Micro-ring Resonator

TL;DR

This paper explores photon squeezing in a nonlinear micro-ring resonator, analyzing how coupling energies influence system stability and the potential for advanced electronic and quantum device applications.

Contribution

It introduces a model for photon squeezing in nonlinear micro-ring resonators considering coupling energy effects and their impact on system stability.

Findings

Coupling energies affect the stability of the micro-ring resonator.

Photon squeezing states can be achieved through system nonlinearities.

Potential applications in quantum and electronic devices.

Abstract

Principally, there are two forms of coupling energy when particle(photon) is moving around the micro-ring resonator, which is generated by the construction (creation) and the destruction (annihilation) energies that can disturb the centre nonlinear microring resonator and lead the system unstable from the harmonic motion, from which the squeezing state of the particle can occur. The detected outputs either electrons and their spins or photons can be useful for the new era of electronic devices and circuits, where the classical electronics, plasmonic electronics, spintronic electronics and quantum electronics can be combined and realized.