English

Multi-Tone Microwave Locking via Real-Time Feedback

Instrumentation and Detectors 2023-07-13 v2 Quantum Physics

Abstract

Environmental noise coupling to mechanical experiments often introduces low-frequency fluctuations to the resonators, adding noise to measurements and reducing signal to noise. To counter these fluctuations, we demonstrate a dynamic feedback system implemented by the locking of a microwave drive to the noisy cavity. A homodyne interferometer scheme monitors the cavity resonance fluctuations due to low-frequency noise, which is mitigated by frequency-modulating (FM) the microwave generator. The feedback has a bandwidth of 400400 Hz, with a reduction of cavity fluctuations by 84%84\% integrating up to a bandwidth of 22 kHz. Moreover, the cavity resonance frequency fluctuations are reduced by 73%73\%. This scheme can be scaled to enable multi-tone experiments locked to the same feedback signal. As a demonstration, we apply the feedback to an optomechanical experiment and implement a cavity-locked, multi-tone mechanical measurement. As low-frequency cavity frequency noise can be a limiting factor in many experiments, the multi-tone microwave locking technique presented here is expected to be relevant for a wide range of fields of research.

Keywords

Cite

@article{arxiv.2304.06296,
  title  = {Multi-Tone Microwave Locking via Real-Time Feedback},
  author = {J. P. van Soest and C. A. Potts and S. Peiter and A. Sanz Mora and G. A. Steele},
  journal= {arXiv preprint arXiv:2304.06296},
  year   = {2023}
}

Comments

7 pages, 5 figures

R2 v1 2026-06-28T10:03:43.423Z