English

Resonator-assisted single molecule quantum state detection

Atomic Physics 2020-09-02 v2

Abstract

We propose a state-sensitive scheme to optically detect a single molecule without a closed transition, through strong coupling to a high-Q whispering-gallery mode high-Q resonator. A background-free signal can be obtained by detecting a molecule-induced transparency in a photon bus waveguide that is critically coupled to the resonator, with a suppressed depumping rate to other molecular states by the cooperativity parameter CC. We numerically calculate the dynamics of the molecule-resonator coupled system using Lindblad master equations, and develop analytical solutions through the evolution of quasi-steady states in the weak-driving regime. Using Rb2_2 triplet ground state molecules as an example, we show that high fidelity state readout can be achieved using realistic resonator parameters. We further discuss the case of multiple molecules collectively coupled to a resonator, demonstrating near-unity detection fidelity and negligible population loss.

Keywords

Cite

@article{arxiv.2007.04498,
  title  = {Resonator-assisted single molecule quantum state detection},
  author = {Ming Zhu and Yan-Cheng Wei and Chen-Lung Hung},
  journal= {arXiv preprint arXiv:2007.04498},
  year   = {2020}
}
R2 v1 2026-06-23T16:58:13.051Z