Anna Berti, Lennart Fernandes, Salvatore Giulio Butera, Alessio Recati, Michiel Wauters, Iacopo Carusotto
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Analog Hawking radiation from a spin-sonic horizon in a two-component Bose-Einstein condensate
We theoretically study stimulated and spontaneous Hawking emission from an
analog horizon for spin modes in a two-component Bose-Einstein condensate, both
with and without a coherent coupling between the two components. We highlight
the conceptual and practical advantages that these systems offer to the
experimental observation of the phenomenon, namely the massive nature of
elementary excitations and the experimental accessibility of the different
quadratures of the spin excitations. In particular, we go beyond the
relativistic regimes previously addressed in the literature, and identify
various observables that show a signature of the Hawking process, as well as
additional features associated with the massive nature of the modes, such as
undulations. Semi-analytical calculations of the scattering properties of the
horizon and of two-point correlation functions of the emitted radiation in an
ideal stationary setup are supported by time-dependent numerical simulations
based on Gross-Pitaevskii and Bogoliubov theory.
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