Atoms (Nov 2020)

Magic Wavelengths for Optical-Lattice Based Cs and Rb Active Clocks

  • Sukhjit Singh,
  • Jyoti,
  • Bindiya Arora,
  • B. K. Sahoo,
  • Yan-mei Yu

DOI
https://doi.org/10.3390/atoms8040079
Journal volume & issue
Vol. 8, no. 4
p. 79

Abstract

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Active clocks could provide better stabilities during initial stages of measurements over passive clocks, in which stabilities become saturated only after long-term measurements. This unique feature of an active clock has led to search for suitable candidates to construct such clocks. The other challenging task of an atomic clock is to reduce its possible systematics. A major part of the optical lattice atomic clocks based on neutral atoms are reduced by trapping atoms at the magic wavelengths of the optical lattice lasers. Keeping this in mind, we find the magic wavelengths between all possible hyperfine levels of the transitions in Rb and Cs atoms that were earlier considered to be suitable for making optical active clocks. To validate the results, we give the static dipole polarizabilities of Rb and Cs atoms using the electric dipole transition amplitudes that are used to evaluate the dynamic dipole polarizabilities and compare them with the available literature values.

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