%0 Journal Article
%T Miniature Optical Atomic Clock: Stabilization of a Kerr Comb Oscillator
%A A. A. Savchenkov
%A D. Eliyahu
%A W. Liang
%A V. S. Ilchenko
%A J. Byrd
%A A. B. Matsko
%A D. Seidel
%A L. Maleki
%J Physics
%D 2013
%I arXiv
%X Mechanical clocks consist of a pendulum and a clockwork that translates the pendulum period to displayed time. The most advanced clocks utilize optical transitions in atoms in place of the pendulum and an optical frequency comb generated by a femtosecond laser as the clockwork. The comb must be stabilized at two points along its frequency spectrum: one with a laser to lock a comb line to a transition in the atom, and another through self referencing to stabilize the frequency interval between the comb lines. This approach requires advanced techniques, so optical atomic clocks are currently laboratory devices in specialized labs. In this paper we leverage unique properties of Kerr comb oscillators for realization of optical atomic clocks in miniature form factors. In particular, we describe a clock based on D1 transition of 87Rb that fits in the palm of the hand, and can be further miniaturized to chip scale.
%U http://arxiv.org/abs/1301.3198v1