English

Cold-atom clock based on a diffractive optic

Atomic Physics 2020-01-06 v2
Authors: Rachel Elvin , Gregory W. Hoth , Michael Wright , Ben Lewis , James P. McGilligan , Aidan S. Arnold , Paul F. Griffin , Erling Riis
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Abstract

Clocks based on cold atoms offer unbeatable accuracy and long-term stability, but their use in portable quantum technologies is hampered by a large physical footprint. Here, we use the compact optical layout of a grating magneto-optical trap (gMOT) for a precise frequency reference. The gMOT collects 10710^7 87^{87}Rb atoms, which are subsequently cooled to 20μ20\,\muK in optical molasses. We optically probe the microwave atomic ground-state splitting using lin\perplin polarised coherent population trapping and a Raman-Ramsey sequence. With ballistic drop distances of only 0.50.5\,mm, the measured short-term fractional frequency stability is 2×1011/τ2 \times 10 ^{-11} /\sqrt{\tau}.

Keywords

optical lattice clocks laser cooling and trapping ultracold atoms in optical lattices

Cite

@article{arxiv.1909.04361,
  title  = {Cold-atom clock based on a diffractive optic},
  author = {Rachel Elvin and Gregory W. Hoth and Michael Wright and Ben Lewis and James P. McGilligan and Aidan S. Arnold and Paul F. Griffin and Erling Riis},
  journal= {arXiv preprint arXiv:1909.04361},
  year   = {2020}
}

Comments

8 pages, 4 figures

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