Conformal nonlinear fluid dynamics from gravity in arbitrary dimensions

Bhattacharyya, Sayantani; Loganayagam, R.; Mandal, Ipsita; Minwalla, Shiraz; Sharma, Ankit

doi:10.1088/1126-6708/2008/12/116

Cited by 187 publications

(488 citation statements)

References 105 publications

(258 reference statements)

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“…In the context of the AdS/CFT correspondence, this construction also provides an efficient means of computing transport coefficients in the dual CFT. The details of this connection have been worked out for pure gravity in arbitrary dimensions [1,[3][4][5], Einstein-Maxwell theory in 4 + 1 dimensions [6][7][8], and gravity coupled to a scalar field in 4 + 1 dimensions [9]. There is also an extensive earlier literature on the study of transport coefficients within the AdS/CFT correspondence; see [10] for a review and further references.…”

Section: Introductionmentioning

confidence: 99%

Nonlinear magnetohydrodynamics from gravity

Hansen¹,

Kraus²

2009

J. High Energy Phys.

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We apply the recently established connection between nonlinear fluid dynamics and AdS gravity to the case of the dyonic black brane in AdS 4 . This yields the equations of fluid dynamics for a 2 + 1 dimensional charged fluid in a background magnetic field. We construct the gravity solution to second order in the derivative expansion. From this we find the fluid dynamical stress tensor and charge current to second and third order in derivatives respectively, along with values for the associated transport coefficients.

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Section: Introductionmentioning

confidence: 99%

Nonlinear magnetohydrodynamics from gravity

Hansen¹,

Kraus²

2009

J. High Energy Phys.

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“…Recently however one example of a provable, at least as an asymptotic expansion, gravitational holographic duality has been discovered in Refs. [1,2]. This is a map between black brane solutions of Einstein's equations with a negative cosmological constant and conformal fluid flows in one less dimension.…”

Section: Ads/hydrodynamics Correspondencementioning

confidence: 99%

“…It was proven in Refs. [1,2] that the constraint components of Einstein's equations, intuitively the integrability conditions in a null direction, are related to the conservation of the stress tensor via the map. Therefore solutions of Einstein's equations automatically yield solutions to the hydrodynamic equations.…”

Section: Ads/hydrodynamics Correspondencementioning

confidence: 99%

“…This failure is due to the fact that it misses a universal element of turbulence, intermittency: inside of every turbulent flow there is a region with laminar flow. Many phenomenological models have been developed which include some intermittency by hand, and so are able to roughly numerically fit the higher n-point functions, with a precision which depends on how many parameters are included 2 . As a first approach we will omit intermittency altogether.…”

Section: Turbulencementioning

confidence: 99%

“…[1,2]. To apply this map to turbulent flows, one must first find the stationary vortex solutions in a conformal hydrodynamic theory which are the analogues of the vortices discussed above in the context of incompressible fluids.…”

Section: Conformal (2+1)d Fluidsmentioning

confidence: 99%

See 2 more Smart Citations

Hydrodynamic vortices and their gravity duals

Evslin¹

2012

Fortschritte der Physik

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In this talk we review analytical and numerical studies of hydrodynamic vortices in conformal fluids and their gravity duals. We present two conclusions. First, (3+1)-dimensional turbulence is within the range of validity of the AdS/hydrodynamics correspondence. Second, the local equilibrium of the fluid is equivalent to the ultralocality of the holographic correspondence, in the sense that the bulk data at a given point is determined, to any given precision, by the boundary data at a single point together with a fixed number of derivatives. With this criterion we see that the cores of hot and slow (3+1)-dimensional conformal generalizations of Burgers vortices are everywhere in local equilibrium and their gravity duals are thus easily found. On the other hand local equilibrium breaks down in the core of singular (2+1)-dimensional vortices, but the holographic correspondence with Einstein gravity may be used to define the boundary field theory in the region in which the hydrodynamic description fails.

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The Dynamics of Quark-Gluon Plasma and AdS/CFT

Janik

2011

From Gravity to Thermal Gauge Theories: The AdS/CFT Correspondence

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In this talk we first discuss the motivation for using the AdS/CFT correspondence as a tool for the understanding of real-time dynamics of quark-gluon plasma. After describing the effective dual degrees of freedom for a strongly coupled gauge theory system, we review the subsequent theoretical 'layers' in the physics of quark-gluon plasma: a uniform plasma at fixed temperature, linearized fluctuations, nonlinear hydrodynamic behaviour and finally some aspects of addressing non-equilibrium physics. The discussion is brief and aimed at nonspecialists. typeset using PTPT E X.cls Ver.0.9

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Conformal nonlinear fluid dynamics from gravity in arbitrary dimensions

Cited by 187 publications

References 105 publications

Nonlinear magnetohydrodynamics from gravity

Nonlinear magnetohydrodynamics from gravity

Hydrodynamic vortices and their gravity duals

The Dynamics of Quark-Gluon Plasma and AdS/CFT

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