中文

Cesium Based Laser-Atomic Oscillator

原子物理 2026-06-30 v1

摘要

We report the first demonstration of a laser-atomic oscillator with cesium (Cs) atoms. A laser-atomic oscillator (LAO) is analogous to an active mode-locked laser with a self-excited modulator, i.e. atoms, at a ground-state hyperfine transition frequency. Therefore, a LAO can be configured as the simplest active atomic clock or a self-oscillating, earth-field atomic magnetometer that delivers oscillation signals both optically and electrically. With the current experimental Cs-LAO setup, when it is configured as an atomic clock using the 0--0 hyperfine transition, the short-term fractional frequency instability is around 1010^{-10} level. When it is configured as a self-oscillating magnetometer using a magnetically-sensitive hyperfine transition, the magnetic field sensitivity is around 100 fT/Hz\sqrt{\rm{Hz}} at 60 Hz. The presented Cs-LAO uses a cavity length from 6.5\sim6.5 cm to 11.4\sim11.4 cm. Ultimately, the minimal length of a Cs-LAO device can be 1.63\leq1.63 cm. Our new efforts unlock the potential of building truly chip-scale atomic clocks and magnetometers.

引用

@article{arxiv.2606.32019,
  title  = {Cesium Based Laser-Atomic Oscillator},
  author = {Saurabh Pandey and Roger Ding and George Burns and Yuan-Yu Jau},
  journal= {arXiv preprint arXiv:2606.32019},
  year   = {2026}
}