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Ultimate stability of active optical frequency standards

Atomic Physics 2022-12-07 v3 Optics Quantum Physics

Abstract

Active optical frequency standards provide interesting alternatives to their passive counterparts. Particularly, such a clock alone continuously generates highly-stable narrow-line laser radiation. Thus a local oscillator is not required to keep the optical phase during a dead time between interrogations as in passive clocks, but only to boost the active clock's low output power to practically usable levels with the current state of technology. Here we investigate the spectral properties and the stability of active clocks, including homogeneous and inhomogeneous broadening effects. We find that for short averaging times the stability is limited by photon shot noise from the limited emitted laser power and at long averaging times by phase diffusion of the laser output. Operational parameters for best long-term stability were identified. Using realistic numbers for an active clock with 87^{87}Sr we find that an optimized stability of σy(τ)4×1018/τ[s]\sigma_y(\tau) \approx 4\times10^{-18}/\sqrt{\tau [\mathrm{s}]} is achievable.

Keywords

Cite

@article{arxiv.2205.14130,
  title  = {Ultimate stability of active optical frequency standards},
  author = {Georgy A. Kazakov and Swadheen Dubey and Anna Bychek and Uwe Sterr and Marcin Bober and Michał Zawada},
  journal= {arXiv preprint arXiv:2205.14130},
  year   = {2022}
}

Comments

15 pages

R2 v1 2026-06-24T11:31:15.725Z