Multi-path photon-phonon converter in optomechanical system at single-quantum level
Abstract
Based on photon-phonon nonlinear interaction, a scheme is proposed to realize a controllable multi-path photon-phonon converter at single-quantum level in a composed quadratically coupled optomechanical system. Considering the realization of the scheme, an associated mechanical oscillator is introduced to enhance the effective nonlinear effect. Thus, the single-photon state can be converted to the phonon state with high fidelity even under the current experimental condition that the single-photon coupling rate is much smaller than mechanical frequency (). The state transfer protocols and their transfer fidelity are discussed both analytically and numerically. A multi-path photon-phonon converter is designed, by combining the optomechanical system with low frequency resonators, which can be controlled by experimentally adjustable parameters. This work provides us a potential platform for quantum state transfer and quantum information processing.
Cite
@article{arxiv.1701.05401,
title = {Multi-path photon-phonon converter in optomechanical system at single-quantum level},
author = {Tian-Yi Chen and Wen-Zhao Zhang and Ren-Zhou Fang and Cheng-Zhou Hang and Ling Zhou},
journal= {arXiv preprint arXiv:1701.05401},
year = {2017}
}