Mauro Brigante scite author profile

Motivated by the vast string landscape, we consider the shear viscosity to entropy density ratio in conformal field theories dual to Einstein gravity with curvature square corrections. After field redefinitions these theories reduce to Gauss-Bonnet gravity, which has special properties that allow us to compute the shear viscosity nonperturbatively in the Gauss-Bonnet coupling. By tuning of the coupling, the value of the shear viscosity to entropy density ratio can be adjusted to any positive value from infinity down to zero, thus violating the conjectured viscosity bound. At linear order in the coupling, we also check consistency of four different methods to calculate the shear viscosity, and we find that all of them agree. We search for possible pathologies associated with this class of theories violating the viscosity bound.

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Viscosity Bound and Causality Violation

Brigante

et al. 2008

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In recent work we showed that, for a class of conformal field theories (CFT) with Gauss-Bonnet gravity dual, the shear viscosity to entropy density ratio, eta/s, could violate the conjectured Kovtun-Starinets-Son viscosity bound, eta/s > or = 1/4 pi. In this Letter we argue, in the context of the same model, that tuning eta/s below (16/25)(1/4 pi) induces microcausality violation in the CFT, rendering the theory inconsistent. This is a concrete example in which inconsistency of a theory and a lower bound on viscosity are correlated, supporting the idea of a possible universal lower bound on eta/s for all consistent theories.

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The Asymptotic Dynamics of two-dimensional (anti-)de Sitter Gravity

Brigante¹,

Cacciatori²,

Klemm³

et al. 2002

J. High Energy Phys.

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We show that the asymptotic dynamics of two-dimensional de Sitter or anti-de Sitter Jackiw-Teitelboim (JT) gravity is described by a generalized two-particle Calogero-Sutherland model. This correspondence is established by formulating the JT model of (A)dS gravity in two dimensions as a topological gauge theory, which reduces to a nonlinear 0+1-dimensional sigma model on the boundary of (A)dS space. The appearance of cyclic coordinates allows then a further reduction to the Calogero-Sutherland quantum mechanical model.

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Inheritance principle and non-renormalization theorems at finite temperature

2006

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We present a general proof of an "inheritance principle" satisfied by a weakly coupled SU (N ) gauge theory with adjoint matter on a class of compact manifolds (like S 3 ). In the large N limit, finite temperature correlation functions of gauge invariant single-trace operators in the low temperature phase are related to those at zero temperature by summing over images of each operator in the Euclidean time direction. As a consequence, various non-renormalization theorems of N = 4 Super-Yang-Mills theory on S 3 survive at finite temperature despite the fact that the conformal and supersymmetries are both broken. Sep. 15, 2005

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Hagedorn divergences and tachyon potential

Brigante

Festuccia

Liu

2007

J. High Energy Phys.

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We consider the critical behavior for a string theory near the Hagedorn temperature.We use the factorization of the worldsheet to isolate the Hagedorn divergences at all genera.We show that the Hagedorn divergences can be resummed by introducing double scaling limits, which smooth the divergences. The double scaling limits also allow one to extract the effective potential for the thermal scalar. For a string theory in an asymptotic anti-de Sitter (AdS) spacetime, the AdS/CFT correspondence implies that the critical Hagedorn behavior and the relation with the effective potential should also arise from the boundary Yang-Mills theory. We show that this is indeed the case. In particular we find that the free energy of a Yang-Mills theory contains "vortex" contributions at finite temperature. Yang-Mills Feynman diagrams with vortices can be identified with contributions from boundaries of moduli space on the string theory side. January 2007is obtained by summing the vortex diagrams in fig. 7. 13 Z 0 is a special case of the discussion in section 4 of [37] with no external operator insertions. 14 as is the case for a string theory below the Hagedorn temperature.

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Mauro Brigante

Viscosity bound violation in higher derivative gravity

Viscosity Bound and Causality Violation

The Asymptotic Dynamics of two-dimensional (anti-)de Sitter Gravity

Inheritance principle and non-renormalization theorems at finite temperature

Hagedorn divergences and tachyon potential

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