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A Fermi-degenerate three-dimensional optical lattice clock

Atomic Physics 2017-11-30 v2 Quantum Gases Quantum Physics

Abstract

Strontium optical lattice clocks have the potential to simultaneously interrogate millions of atoms with a high spectroscopic quality factor of 4×10174 \times 10^{-17}. Previously, atomic interactions have forced a compromise between clock stability, which benefits from a large atom number, and accuracy, which suffers from density-dependent frequency shifts. Here, we demonstrate a scalable solution which takes advantage of the high, correlated density of a degenerate Fermi gas in a three-dimensional optical lattice to guard against on-site interaction shifts. We show that contact interactions are resolved so that their contribution to clock shifts is orders of magnitude lower than in previous experiments. A synchronous clock comparison between two regions of the 3D lattice yields a 5×10195 \times 10^{-19} measurement precision in 1 hour of averaging time.

Keywords

Cite

@article{arxiv.1702.01210,
  title  = {A Fermi-degenerate three-dimensional optical lattice clock},
  author = {S. L. Campbell and R. B. Hutson and G. E. Marti and A. Goban and N. Darkwah Oppong and R. L. McNally and L. Sonderhouse and J. M. Robinson and W. Zhang and B. J. Bloom and J. Ye},
  journal= {arXiv preprint arXiv:1702.01210},
  year   = {2017}
}

Comments

19 pages, 4 figures; Supplementary Materials

R2 v1 2026-06-22T18:09:10.053Z