Bounding quantum gravity inspired decoherence using atom interferometry
Quantum Physics
2016-12-21 v1 High Energy Physics - Phenomenology
Abstract
Hypothetical models have been proposed in which explicit collapse mechanisms prevent the superposition principle to hold at large scales. In particular, the model introduced by Ellis and co-workers [Phys. Lett. B , 113 (1989)] suggests that quantum gravity might be responsible for the collapse of the wavefunction of massive objects in spatial superpositions. We here consider a recent experiment reporting on interferometry with atoms delocalized over half a meter for timescale of a second [Nature , 530 (2015)] and show that the corresponding data strongly bound quantum gravity induced decoherence and rule it out in the parameter regime considered originally.
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Cite
@article{arxiv.1604.07810,
title = {Bounding quantum gravity inspired decoherence using atom interferometry},
author = {Jiří Minář and Pavel Sekatski and Nicolas Sangouard},
journal= {arXiv preprint arXiv:1604.07810},
year = {2016}
}
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3 pages