English

Measuring the atomic recoil frequency using a perturbative grating-echo atom interferometer

Atomic Physics 2013-03-26 v2

Abstract

We describe progress toward a precise measurement of the recoil energy of an atom measured using a perturbative grating-echo atom interferometer (AI) that involves three standing-wave (sw) pulses. With this technique, a perturbing sw pulse is used to shift the phase of excited momentum states---producing a modulation in the contrast of the interference pattern. The signal exhibits narrow fringes that revive periodically at twice the two-photon recoil frequency, 2ωq2\omega_q, as a function of the onset time of the pulse. Experiments are performed using samples of laser-cooled rubidium atoms with temperatures 5\lesssim 5 μ\muK in a non-magnetic apparatus. We demonstrate a measurement of ωq\omega_q with a statistical uncertainty of 37 parts per 10910^9 (ppb) on a time scale of 45\sim 45 ms in 14 hours. Further statistical improvements are anticipated by extending this time scale and narrowing the signal fringe width. However, the total systematic uncertainty is estimated to be 6\sim 6 parts per 10610^6 (ppm). We describe methods of reducing these systematic errors.

Keywords

Cite

@article{arxiv.1209.5624,
  title  = {Measuring the atomic recoil frequency using a perturbative grating-echo atom interferometer},
  author = {B. Barrett and A. Carew and S. Beattie and A. Kumarakrishnan},
  journal= {arXiv preprint arXiv:1209.5624},
  year   = {2013}
}

Comments

8 pages, 5 figures, submitted to PRA

R2 v1 2026-06-21T22:10:49.577Z