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Strongly Coupled Chameleons and the Neutronic Quantum Bouncer
release_ovlbcx7ayjh53hjqd2jc2p2fve
by
Philippe Brax,
Guillaume Pignol
Released
as a article
.
2011
Abstract
We consider the potential detection of chameleons using bouncing ultracold
neutrons. We show that the presence of a chameleon field over a planar plate
would alter the energy levels of ultra cold neutrons in the terrestrial
gravitational field. When chameleons are strongly coupled to nuclear matter,
β≳ 10^8, we find that the shift in energy levels would be
detectable with the forthcoming GRANIT experiment, where a sensitivity of order
one percent of a peV is expected. We also find that an extremely large coupling
β≳ 10^11 would lead to new bound states at a distance of order 2
microns, which is already ruled out by previous Grenoble experiments. The
resulting bound, β≲ 10^11, is already three orders of magnitude
better than the upper bound, β≲ 10^14, from precision tests of
atomic spectra.
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1105.3420v2
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