Asymptotically Lifshitz wormholes and black holes for Lovelock gravity in vacuum

Matulich, Javier; Troncoso, Ricardo

doi:10.1007/jhep10(2011)118

Cited by 50 publications

(37 citation statements)

References 130 publications

(174 reference statements)

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“…By engineering a matter or gravity content to source the desired geometry, some analytical solutions have also been constructed. Overall, Lifshitz black hole solutions in phenomenological models include numerical and analytic studies, fixed as well as arbitrary critical exponents, horizons with various topologies, extensions to other dimensions, higher-order theories of gravity, and Brans-Dicke models [26][27][28][29][30][31][32][33][34][35][36][37][38][39][40][41][42][43][44].…”

Section: Jhep05(2012)122mentioning

confidence: 99%

“…Analytic LiBH solutions have been found for essentially two types of 4D Einstein gravity systems (see also [37][38][39][40][41][42][43][44] for other possible extensions). The first (ΛAAm) contains, besides gravity, a cosmological constant, a massless abelian gauge field F 2 and massive abelian gauge field F 2 with mass m [26].…”

Section: B Exact Lifshitz Solutionsmentioning

confidence: 99%

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Lifshitz black holes in IIA supergravity

Barclay¹,

Gregory

Parameswaran

et al. 2012

J. High Energ. Phys.

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We compute string theoretic black hole solutions having Lifshitz asymptotics with a general dynamical exponent z > 1. We start by constructing solutions in a flux compactification of six dimensional supergravity, then uplift them to massive type IIA supergravity. Alongside the Lifshitz black holes we study the simpler anti-de Sitter solutions, of which there are a 1-parameter family in this supergravity, and compare and contrast their properties. The black holes are characterized by a two-form and scalar charge, and we numerically explore their configuration space and thermodynamical aspects.

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Section: Jhep05(2012)122mentioning

confidence: 99%

Section: B Exact Lifshitz Solutionsmentioning

confidence: 99%

Lifshitz black holes in IIA supergravity

Barclay¹,

Gregory

Parameswaran

et al. 2012

J. High Energ. Phys.

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“…Analytic black hole solution with z = 2 that asymptotes planar Lifshitz spacetimes was found in the Einsteinscalar-massive vector theory [12] and in the Einstein-scalar-Maxwell theory [13]. Another analytic solution has been recently found in the Lovelock gravity [14]. The z = 3 Lifshitz black hole [15] was derived from the new massive gravity (NMG) in three-dimensional spacetimes [16].…”

Section: Introductionmentioning

confidence: 99%

Phase transitions for Lifshitz black holes

Myung

2012

Eur. Phys. J. C

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We study possibility of phase transitions between Lifshitz black holes and other configurations by using free energies explicitly. A phase transition between Lifshitz soliton and Lifshitz black hole might not occur in three dimensions. We find that a phase transition between Lifshitz and BTZ black holes unlikely occurs because they have different asymptotes. Similarly, we point out that any phase transition between Lifshitz and black branes unlikely occurs in four dimensions since they have different asymptotes. This is consistent with a necessary condition for taking a phase transition in the gravitational system, which requires the same asymptote.

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“…We are also convinced that nonlinear electrodynamics will still be useful to explore Lifshitz black hole solutions and its generalizations in contexts beyond standard gravity, as for example for the Lovelock gravity [17] or even in higher-order gravity theories [15,16,18,19].…”

Section: Jhep06(2014)041mentioning

confidence: 96%

“…From the very beginning of the Lifshitz advent it becomes clear that pure Einstein gravity with eventually a cosmological constant resists to support such configurations, since it is clear from Birkhoff's theorem and its generalizations that in highly symmetric vacuum situations there is no freedom to choose the boundary conditions and they become fixed by the dynamics. Consequently, Lifshitz asymptotic requires the introduction of matter sources [5][6][7][8][9][10][11][12][13][14] or/and to consider higher-curvature gravity theories [15][16][17][18][19]. One of the first and simplest examples that has been used for supporting the Lifshitz spacetimes at any dimension D is a Proca field coupled to Einstein gravity with a negative cosmological constant [5].…”

Section: Jhep06(2014)041mentioning

confidence: 99%

Nonlinearly charged Lifshitz black holes for any exponent z > 1

Alvarez

Ayón–Beato

González

2014

J. High Energ. Phys.

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Charged Lifshitz black holes for the Einstein-Proca-Maxwell system with a negative cosmological constant in arbitrary dimension D are known only if the dynamical critical exponent is fixed as z = 2(D − 2). In the present work, we show that these configurations can be extended to much more general charged black holes which in addition exist for any value of the dynamical exponent z > 1 by considering a nonlinear electrodynamics instead of the Maxwell theory. More precisely, we introduce a two-parametric nonlinear electrodynamics defined in the more general, but less known, so-called (H, P )-formalism and obtain a family of charged black hole solutions depending on two parameters. We also remark that the value of the dynamical exponent z = D − 2 turns out to be critical in the sense that it yields asymptotically Lifshitz black holes with logarithmic decay supported by a particular logarithmic electrodynamics. All these configurations include extremal Lifshitz black holes. Charged topological Lifshitz black holes are also shown to emerge by slightly generalizing the proposed electrodynamics.

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Asymptotically Lifshitz wormholes and black holes for Lovelock gravity in vacuum

Cited by 50 publications

References 130 publications

Lifshitz black holes in IIA supergravity

Lifshitz black holes in IIA supergravity

Phase transitions for Lifshitz black holes

Nonlinearly charged Lifshitz black holes for any exponent z > 1

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