Spatial Dependence of Entropy in Trapped Ultracold Bose Gases
ORAL
Abstract
We find a new physical regime in the trapped Bose-Hubbard Hamiltonian using time-evolving block decimation. Between Mott-insulating and superfluid phases, the latter induced by trap compression, a spatially self-organized state appears in which non-local entropy signals entanglement between spatially distant superfluid shells. We suggest a linear rather than harmonic potential as an ideal way to observe such a self-organized system. We also explore both quantum information and thermal entropies in the superfluid regime, finding that while the former follows the density closely the latter can be strongly manipulated with the mean field.
*Supported by the National Science Foundation, by the Graduate School of Fundamental Physics at the University of Heidelberg, by the Aspen Center for Physics, and by the ExtreMe Matter Institute EMMI in the framework of the Helmholtz Alliance.
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