English

A compact dual atom interferometer gyroscope based on laser-cooled rubidium

Atomic Physics 2015-05-13 v1
Authors: T. Müller , M. Gilowski , M. Zaiser , T. Wendrich , W. Ertmer , E. M. Rasel
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Abstract

We present a compact and transportable inertial sensor for precision sensing of rotations and accelerations. The sensor consists of a dual Mach-Zehnder-type atom interferometer operated with laser-cooled 87^{87}Rb. Raman processes are employed to coherently manipulate the matter waves. We describe and characterize the experimental apparatus. A method for passing from a compact geometry to an extended interferometer with three independent atom-light interaction zones is proposed and investigated. The extended geometry will enhance the sensitivity by more than two orders of magnitude which is necessary to achieve sensitivities better than 10810^{-8} rad/s/Hz\sqrt{\rm Hz}.

Keywords

interferometry sensors and measurement gravitational wave detectors

Cite

@article{arxiv.0806.0956,
  title  = {A compact dual atom interferometer gyroscope based on laser-cooled rubidium},
  author = {T. Müller and M. Gilowski and M. Zaiser and T. Wendrich and W. Ertmer and E. M. Rasel},
  journal= {arXiv preprint arXiv:0806.0956},
  year   = {2015}
}

Comments

9 pages, 8 figures

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