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Prospects for Precise Measurements with Echo Atom Interferometry

Atomic Physics 2016-06-28 v1 Quantum Physics

Abstract

Echo atom interferometers have emerged as interesting alternatives to Raman interferometers for the realization of precise measurements of the gravitational acceleration gg and the determination of the atomic fine structure through measurements of the atomic recoil frequency ωq\omega_q. Here we review the development of different configurations of echo interferometers that are best suited to achieve these goals. We describe experiments that utilize near-resonant excitation of laser-cooled rubidium atoms by a sequence of standing wave pulses to measure ωq\omega_q with a statistical uncertainty of 37 parts per billion (ppb) on a time scale of 50\sim 50 ms and gg with a statistical precision of 75 ppb. Related coherent transient techniques that have achieved the most statistically precise measurements of atomic g-factor ratios are also outlined. We discuss the reduction of prominent systematic effects in these experiments using off-resonant excitation by low-cost, high-power lasers.

Keywords

Cite

@article{arxiv.1606.06831,
  title  = {Prospects for Precise Measurements with Echo Atom Interferometry},
  author = {Brynle Barrett and Adam Carew and Hermina C. Beica and Andrejs Vorozcovs and Alexander Pouliot and A. Kumarakrishnan},
  journal= {arXiv preprint arXiv:1606.06831},
  year   = {2016}
}

Comments

34 pages + references, 17 figures

R2 v1 2026-06-22T14:31:15.804Z