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Determination of the Newtonian Gravitational Constant Using Atom Interferometry

Atomic Physics 2012-07-19 v1
Authors: G. Lamporesi , A. Bertoldi , L. Cacciapuoti , M. Prevedelli , G. M. Tino
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Abstract

We present a new measurement of the Newtonian gravitational constant G based on cold atom interferometry. Freely falling samples of laser-cooled rubidium atoms are used in a gravity gradiometer to probe the field generated by nearby source masses. In addition to its potential sensitivity, this method is intriguing as gravity is explored by a quantum system. We report a value of G=6.667 10^{-11} m^{3} kg^{-1} s^{-2}, estimating a statistical uncertainty of ±\pm 0.011 10^{-11} m^{3} kg^{-1} s^{-2} and a systematic uncertainty of ±\pm 0.003 10^{-11} m^{3} kg^{-1} s^{-2}. The long-term stability of the instrument and the signal-to-noise ratio demonstrated here open interesting perspectives for pushing the measurement accuracy below the 100 ppm level.

Keywords

gravimetry gravitational wave detectors

Cite

@article{arxiv.0801.1580,
  title  = {Determination of the Newtonian Gravitational Constant Using Atom Interferometry},
  author = {G. Lamporesi and A. Bertoldi and L. Cacciapuoti and M. Prevedelli and G. M. Tino},
  journal= {arXiv preprint arXiv:0801.1580},
  year   = {2012}
}

Comments

4 figures

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