English

Multimode optomechanical cooling via general dark-mode control

Quantum Physics 2022-08-04 v3

Abstract

The dark-mode effect is a stubborn obstacle for ground-state cooling of multiple degenerate mechanical modes optomechanically coupled to a common cavity-field mode. Here we propose an auxiliary-cavity-mode method for simultaneous ground-state cooling of two degenerate or near-degenerate mechanical modes by breaking the dark mode. We find that the introduction of the auxiliary cavity mode not only breaks the dark-mode effect, but also provides a new cooling channel to extract the thermal excitations stored in the dark mode. Moreover, we study the general physical-coupling configurations for breaking the dark mode in a generalized networkcoupled four-mode optomechanical system consisting of two cavity modes and two mechanical modes. We find the analytical dark-mode-breaking condition in this system. This method is general and it can be generalized to break the dark-mode effect and to realize the simultaneous ground-state cooling in a multiple-mechanicalmode optomechanical system. We also demonstrate the physical mechanism behind the dark-mode breaking by studying the breaking of dark-state effect in the N-type four-level atomic system. Our results not only provide a general method to control various dark-mode and dark-state effects in physics, but also present an opportunity to the study of macroscopic quantum phenomena and applications in multiple-mechanical-resonator systems.

Keywords

Cite

@article{arxiv.2110.14885,
  title  = {Multimode optomechanical cooling via general dark-mode control},
  author = {Jian Huang and Deng-Gao Lai and Cheng Liu and Jin-Feng Huang and Franco Nori and Jie-Qiao Liao},
  journal= {arXiv preprint arXiv:2110.14885},
  year   = {2022}
}

Comments

18 pages, 13 figures

R2 v1 2026-06-24T07:15:15.589Z