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Holographic Interpretation of Acoustic Black Holes

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arxiv 1508.01735 v2 pith:2CSHFACX submitted 2015-08-07 hep-th gr-qc

Holographic Interpretation of Acoustic Black Holes

classification hep-th gr-qc
keywords blackacousticholefluidbranebulkholesreal
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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With the attempt to find the holographic description of usual acoustic black holes in fluid, we construct an acoustic black hole formed in the $d$-dimensional fluid located at the timelike cutoff surface of a neutral black brane in asymptotically AdS$_{d+1}$ spacetime, the bulk gravitational dual of the acoustic black hole is presented at first order of the hydrodynamic fluctuation. Moreover, the Hawking-like temperature of the acoustic black hole horizon is showed to be connected to the Hawking temperature of the real AdS black brane in the bulk, and the duality between the phonon scattering in the acoustic black hole and the sound channel quasinormal mode propagating in the bulk perturbed AdS black brane is extracted. We thus point out that, the acoustic black hole appeared in fluid, which was originally proposed as an analogous model to simulate Hawking radiation of the real black hole, is not merely an analogy, it can indeed be used to describe specific properties of the real AdS black holes, in the spirits of the fluid/gravity duality.

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Cited by 2 Pith papers

Reviewed papers in the Pith corpus that reference this work. Sorted by Pith novelty score.

  1. Bosonic and Fermionic love number of static acoustic black hole

    hep-th 2025-12 unverdicted novelty 6.0

    Static Love numbers for bosonic and fermionic fields around acoustic black holes follow universal power laws for fermions and exhibit logarithmic structures for bosons in lower dimensions.

  2. Classical limit for Dirac fermions with modified action in the presence of the black hole

    gr-qc 2019-06 unverdicted novelty 5.0

    A covariant model of Dirac fermions with an extra Planck-derived term yields the same Einstein-equation collapse as ordinary GR yet permits numerical trajectories that escape the black hole.