Quantum backreaction in dilute Bose-Einstein condensates
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For many physical systems which can be approximated by a classical background field plus small (linearized) quantum fluctuations, a fundamental question concerns the correct description of the backreaction of the quantum fluctuations onto the dynamics of the classical background. We investigate this problem for the example of dilute atomic/molecular Bose-Einstein condensates, for which the microscopic dynamical behavior is under control. It turns out that the effective-action technique does not yield the correct result in general and that the knowledge of the pseudo-energy-momentum tensor ${<\hat T_{\mu\nu}>}$ is not sufficient to describe quantum backreaction.
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Decrease of the entanglement entropy of the Hawking radiation induced by backreaction in the Bose-Einstein condensate
Backreaction in a BEC analog black hole causes the entanglement entropy of Hawking radiation to decrease for sufficiently low energy modes across a wide parameter range.
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