Hawking radiation in a 1+1D analogue black hole induces a UV-finite volume-law term in logarithmic negativity that encodes the density and locations of entangled pairs.
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A coupled-channel framework based on Bogoliubov modes efficiently describes spinor BEC dynamics near spin-spatial resonances, classifying resonant excitations and showing that beyond-quadratic terms are needed for long-time behavior.
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Emergence of volume-law scaling for entanglement negativity from the Hawking radiation of analogue black holes
Hawking radiation in a 1+1D analogue black hole induces a UV-finite volume-law term in logarithmic negativity that encodes the density and locations of entangled pairs.
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Dynamics of spinor Bose-Einstein condensates close to spin-spatial resonances
A coupled-channel framework based on Bogoliubov modes efficiently describes spinor BEC dynamics near spin-spatial resonances, classifying resonant excitations and showing that beyond-quadratic terms are needed for long-time behavior.