Original paper
Slow scrambling in sonic black holes
Abstract
We study from the perspective of quantum information scrambling an acoustic black hole modelled by two semi-infinite, stationary, one dimensional condensates, connected by a spatial step-like discontinuity, and flowing respectively at subsonic and supersonic velocities. We develop a simple analytical treatment based on Bogolyubov theory of quantum fluctuations which is sufficient to derive analogue Hawking emission, and we compute out-of-time...
Paper Details
Title
Slow scrambling in sonic black holes
Published Date
Mar 1, 2018
Journal
Volume
121
Issue
6
Pages
60002
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Notes
History