English

Nonlinear effects in modulated quantum optomechanics

Quantum Physics 2017-12-27 v1

Abstract

The nonlinear quantum regime is crucial for implementing interesting quantum effects, which have wide applications in modern quantum science. Here we propose an effective method to reach the nonlinear quantum regime in a modulated optomechanical system (OMS), which is originally in the weak-coupling regime. The mechanical spring constant and optomechanical interaction are modulated periodically. This leads to the result that the resonant optomechanical interaction can be effectively enhanced into the single-photon strong-coupling regime by the modulation-induced mechanical parametric amplification. Moreover, the amplified phonon noise can be suppressed completely by introducing a squeezed vacuum reservoir, which ultimately leads to the realization of photon blockade in a weakly coupled OMS. The reached nonlinear quantum regime also allows us to engineer the nonclassical states (e.g., Schr\"{o}dinger cat states) of cavity field, which are robust against the phonon noise. This work offers an alternative approach to enhance the quantum nonlinearity of an OMS, which should expand the applications of cavity optomechanics in the quantum realm.

Keywords

Cite

@article{arxiv.1712.07772,
  title  = {Nonlinear effects in modulated quantum optomechanics},
  author = {Tai-Shuang Yin and Xin-You Lü and Li-Li Zheng and Mei Wang and Sha Li and Ying Wu},
  journal= {arXiv preprint arXiv:1712.07772},
  year   = {2017}
}

Comments

7 pages, 7 figures, Published in PRA

R2 v1 2026-06-22T23:25:25.121Z