Vortex holography

Inspired by the AdS/CFT correspondence we propose a new duality that allow the study of strongly coupled field theories living in a 2 + 1 conical space-time. Solving the 4-d Einstein equations in the presence of an infinite static string and negative cosmological constant we obtain a conical AdS 4 space-time whose boundary is identified with the 2 + 1 cone found by Deser, Jackiw and 't Hooft. Using the AdS 4 /CF T 3 correspondence we calculate retarded Green's functions of scalar operators living in the cone.

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“…A similar angular deficit was obtained before in [16] considering a vortex line configuration in the limit of weak gravitational field.…”

Section: A the Static String Configurationsupporting

confidence: 87%

A conical deficit in the AdS ₄ /CFT ₃ correspondence

Ballon-Bayona¹,

Ferreira²,

Otoya³

2010

Class. Quantum Grav.

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“…Throughout the black hole mass is taken to be m = 10, and so the horizon is respectively located at r H = 20, 18.66, 14.36, with r H = m = 10 in the extremal case. The figures in (8), when a = 0 are exactly the same as the results of the Schwarzschild black hole [4], [12]. We note that in changing of the rotation parameter from a value of 0 (corresponding to a Schwarzschild black hole) to the extremal value of 10, both the X and P contours undergo only a small change.…”

Section: Abelian Higgs Vortex In a Kerr Black Holesupporting

confidence: 63%

“…When a = 0, the vortex solutions of the Abelian Higgs equations in flat spacetime (without a black hole) satisfy the l → ∞ limit of equations up to errors which are proportional to mR 2 r 3 ≈ m r 3 [12]. These errors are very tiny far from the black hole horizon, whereas near the horizon r ≈ r H = 2m, they are of the order of 1 m 2 , which is negligible for large mass black holes.…”

Section: Abelian Higgs Vortex In Kerr−ads Black Holementioning

confidence: 97%

Abelian Higgs hair for rotating and charged black holes

Ghezelbash

Mann

2002

Phys. Rev. D

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We study the problem of vortex solutions in the background of rotating black holes in both asymptotically flat and asymptoticlly anti de Sitter spacetimes. We demonstrate the Abelian Higgs field equations in the background of four dimensional Kerr, Kerr-AdS and Reissner-Nordstrom-AdS black holes have vortex line solutions. These solutions, which have axial symmetry, are generalization of the Nielsen-Olesen string. By numerically solving the field equations in each case, we find that these black holes can support an Abelian Higgs field as hair. This situation holds even in the extremal case, and no flux-expulsion occurs. We also compute the effect of the self gravity of the Abelian Higgs field show that the the vortex induces a deficit angle in the corresponding black hole metrics.

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“…However, the same system in the presence of a Higgs scalar presents solutions with very similar properties to the asymptotically-flat space counterparts [6,7,8]. More recently it has been shown that the U (1) Higgs field equations have a vortex solution in four-dimensional AAdS [9]. Static spherically symmetric solutions of general relativity with Λ < 0, coupled to a real scalar field, have been studied in [10].…”

Section: Introductionmentioning

confidence: 99%

Boson stars with negative cosmological constant

2003

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We consider boson star solutions in a D-dimensional, asymptotically anti-de Sitter spacetime and investigate the influence of the cosmological term on their properties. We find that for D > 4 the boson star properties are close to those in four dimensions with a vanishing cosmological constant. A different behavior is noticed for the solutions in the three dimensional case. We establish also the non-existence of static, spherically symmetric black holes with a harmonically time-dependent complex scalar field in any dimension greater than two.

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Vortex holography

Cited by 42 publications

References 29 publications

A conical deficit in the AdS ₄ /CFT ₃ correspondence

A conical deficit in the AdS ₄ /CFT ₃ correspondence

Abelian Higgs hair for rotating and charged black holes

Boson stars with negative cosmological constant

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Vortex holography

Cited by 42 publications

References 29 publications

A conical deficit in the AdS 4 /CFT 3 correspondence

A conical deficit in the AdS 4 /CFT 3 correspondence

Abelian Higgs hair for rotating and charged black holes

Boson stars with negative cosmological constant

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Product

Resources

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A conical deficit in the AdS ₄ /CFT ₃ correspondence

A conical deficit in the AdS ₄ /CFT ₃ correspondence