Excised acoustic black holes: The scattering problem in the time domain

Cherubini, Christian; Federici, F.; Succi, Sauro; Tosi, M. P.

doi:10.1103/physrevd.72.084016

Cited by 38 publications

(31 citation statements)

References 25 publications

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“…Quasinormal modes have again received attention in [78], while the Magnus force is reanalysed in terms of the acoustic geometry in [432]. Singularities in the acoustic geometry are considered in [56], while back-reaction has received more attention in [343].…”

Section: History and Motivationmentioning

confidence: 99%

Analogue Gravity

Barceló

Liberati

Visser

2005

Living Rev. Relativ.

939

992

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Analogue models of (and for) gravity have a long and distinguished history dating back to the earliest years of general relativity. In this review article we will discuss the history, aims, results, and future prospects for the various analogue models. We start the discussion by presenting a particularly simple example of an analogue model, before exploring the rich history and complex tapestry of models discussed in the literature. The last decade in particular has seen a remarkable and sustained development of analogue gravity ideas, leading to some hundreds of published articles, a workshop, two books, and this review article. Future prospects for the analogue gravity programme also look promising, both on the experimental front (where technology is rapidly advancing) and on the theoretical front (where variants of analogue models can be used as a springboard for radical attacks on the problem of quantum gravity).

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Section: History and Motivationmentioning

confidence: 99%

Analogue Gravity

Barceló

Liberati

Visser

2005

Living Rev. Relativ.

939

992

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“…In particular, it was suggested to use the renormalization techniques developed in QFT to study the depletion of BEC; 4 in other presentation the stability of sonic horizons in BEC 5 and the scattering problems on rotating acoustic black holes have been discussed. 6 Effective metric appears for light propagating in non-linear dispersive dielectric media 7 and in moving media; 8 for surface waves -ripplons -propagating on the surface of quantum liquids or at the interface between two superfluids. 9 The latter allows us to study experimentally the instability of the quantum vacuum in ergoregion.…”

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confidence: 99%

From Quantum Hydrodynamics to Quantum Gravity

Volovik¹

2008

The Eleventh Marcel Grossmann Meeting

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“…The method has been implied in Refs. [7,28] and the superradiance state has been discussed in detail. In the case of our system the problem becomes even more difficult since the equation must be solved along with the linearized equations of motions for δα 1 , δα 2 , and δα 3 .…”

Section: Acoustic Black Hole: Effective Geometrymentioning

confidence: 99%

Acoustic superradiance from an optical-superradiance-induced vortex in a Bose-Einstein condensate

Ghazanfari

Müstecaplıoğlu²

2014

Phys. Rev. A

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We consider the scattering of an acoustic wave from a vortex induced by optical superradiance. The vortex is created by pumping a large amount of angular momentum with a Laguerre-Gaussian light beam in an atomic Bose-Einstein condensate. We derive the mean-field dynamical equations of the light-superfluid system, and obtain the equations governing the elementary excitation of the system, which result in a massless KleinGordon equation with source terms. This equation describes the propagation of the sound wave in an effective space-time. Employing a simplifying draining bathtub model for the vortex, we investigate the scattering of the acoustic wave in the vortex phase and obtain a condition for the acoustic superradiance. We conclude that Laguerre-Gaussian-beam-induced sudden transition from homogeneous to vortex state in the superfluid leads to a prominent observation of the acoustic superradiance.

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Excised acoustic black holes: The scattering problem in the time domain

Cited by 38 publications

References 25 publications

Analogue Gravity

Analogue Gravity

From Quantum Hydrodynamics to Quantum Gravity

Acoustic superradiance from an optical-superradiance-induced vortex in a Bose-Einstein condensate

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