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Accurate calculations of Sr properties for a high-accuracy optical clock

Atomic Physics 2010-04-29 v1 General Physics
Authors: S. G. Porsev , Andrew D. Ludlow , Martin M. Boyd , Jun Ye
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Abstract

We have carried out calculations towards the goal of reducing the inaccuracy of the Sr optical atomic clock to 1×1017\times10^{-17} and below. We calculated a.c. polarizabilities of the 5s^2 ^1S_0 and 5s5p3P0o5s5p ^3P_0^o clock states that are important for reducing the uncertainty of blackbody radiation-induced frequency shifts for the 1S03P0o^1S_0 - ^3P_0^o clock transition. We determined four low-lying even-parity states whose total contribution to the static polarizability of the 3P0o^3P_0^o clock state is at the level of 90%. We show that if the contribution of these states is experimentally known with 0.1% accuracy, the same accuracy can be achieved for the total polarizability of the 3P0o^3P_0^o state. The corresponding uncertainty for the blackbody shift at a fixed room temperature will be below 1×1017\times10^{-17}. The calculations are confirmed by a number of experimental measurements on various Sr properties.

Keywords

optical lattice clocks

Cite

@article{arxiv.0807.1381,
  title  = {Accurate calculations of Sr properties for a high-accuracy optical clock},
  author = {S. G. Porsev and Andrew D. Ludlow and Martin M. Boyd and Jun Ye},
  journal= {arXiv preprint arXiv:0807.1381},
  year   = {2010}
}

Comments

9 pages, 2 figures, 5 tables

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