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Probing Quantum States with Momentum Boosts
release_yjsj6ilwd5bojkjo7wklxhjb5u
by
Tarek A. Elsayed,
Alexej I. Streltsov
Released
as a article
.
2017
Abstract
We present a technique to diagnose the condensate fraction in a
one-dimensional optical lattice of weakly interacting bosons based on the
dynamics of the trapped atoms under the influence of a momentum kick. It is
shown using the Multi-Configuration Time Dependent Hartree method for Bosons
(MCTDHB) that the two extreme cases of the superfluid and Mott insulator states
exhibit different behaviors when the lattice is briefly tilted. The current
induced by the momentum boost caused by the tilt which depends directly on the
amount of phase coherence between the lattice sites is linearly proportional to
the condensate fraction. The atom-atom interactions only change the slope of
the linear relationship. We discuss the applications of this scheme in magnetic
field gradiometery.
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1705.10643v1
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