English

Compact Yb$^+$ optical atomic clock project: design principle and current status

Atomic Physics 2016-08-03 v1 Instrumentation and Detectors Optics

Abstract

We present the design of a compact optical clock based on the 2S1/22D3/2^2S_{1/2} \rightarrow ^2D_{3/2} 435.5 nm transition in 171^{171}Yb+^+. The ion trap will be based on a micro-fabricated circuit, with surface electrodes generating a trapping potential to localize a single Yb ion a few hundred μ\mum from the electrodes. We present our trap design as well as simulations of the resulting trapping pseudo-potential. We also present a compact, multi-channel wavelength meter that will permit the frequency stabilization of the cooling, repumping and clear-out lasers at 369.5 nm, 935.2 nm and 638.6 nm needed to cool the ion. We use this wavelength meter to characterize and stabilize the frequency of extended cavity diode lasers at 369.5 nm and 638.6 nm.

Keywords

Cite

@article{arxiv.1603.05816,
  title  = {Compact Yb$^+$ optical atomic clock project: design principle and current status},
  author = {Clément Lacroûte and Maël Souidi and Pierre-Yves Bourgeois and Jacques Millo and Khaldoun Saleh and Emmanuel Bigler and Rodolphe Boudot and Vincent Giordano and Yann Kersalé},
  journal= {arXiv preprint arXiv:1603.05816},
  year   = {2016}
}

Comments

7 pages, 5 figures. Proc. of the 8th FSM 2015, Potsdam, Germany. To be published in IOP Journal of Physics: Conference Series

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