Particle theory

DEVELOPMENTS IN PERTURBATIVE QCD

International Journal of Modern Physics A World Scientific Publishing 21:08n09 (2006) 1778-1791

Thermal spectral functions of strongly coupled N = 4 supersymmetric Yang-Mills theory.

Phys Rev Lett 96:13 (2006) 131601

Authors:

Pavel Kovtun, Andrei Starinets

Abstract:

We use the gauge-gravity duality conjecture to compute spectral functions of the stress-energy tensor in finite-temperature N = 4 supersymmetric Yang-Mills theory in the limit of large N(c) and large 't Hooft coupling. The spectral functions exhibit peaks characteristic of hydrodynamic modes at small frequency, and oscillations at intermediate frequency. The nonperturbative spectral functions differ qualitatively from those obtained in perturbation theory. The results may prove useful for lattice studies of transport processes in thermal gauge theories.

Minimal subtraction vs. physical factorisation schemes in small-x QCD

Physics Letters B Elsevier 635:5-6 (2006) 320-329

Authors:

M Ciafaloni, D Colferai, GP Salam, AM Staśto

Hydrodynamics of R-charged black holes

Journal of High Energy Physics (2006)

Authors:

DT Son, AO Starinets

Abstract:

We consider hydrodynamics of = 4 supersymmetric SU(Nc) Yang-Mills plasma at a nonzero density of R-charge. In the regime of large Nc and large 't Hooft coupling the gravity dual description involves an asymptotically Anti- de Sitter five-dimensional charged black hole solution of Behrnd, Cvetic and Sabra. We compute the shear viscosity as a function of chemical potentials conjugated to the three U(1)SO(6) R charges. The ratio of the shear viscosity to entropy density is independent of the chemical potentials and is equal to 1/4π. For a single charge black hole we also compute the thermal conductivity, and investigate the critical behavior of the transport coefficients near the boundary of thermodynamic stability. © SISSA 2006.

Moduli stabilisation in heterotic string compactifications

Journal of High Energy Physics (2006)

Authors:

B De Carlos, A Micu, S Gurrieri, A Lukas

Abstract:

In this paper we analyze the structure of supersymmetric vacua in compactifications of the heterotic string on certain manifolds with SU(3) structure. We first study the effective theories obtained from compactifications on half-flat manifolds and show that solutions which stabilise the moduli at acceptable values are hard to find. We then derive the effective theories associated with compactification on generalized half-flat manifolds. It is shown that these effective theories are consistent with four-dimensional N ≤ 1 supergravity and that the superpotential can be obtained by a Gukov-Vafa-Witten type formula. Within these generalized models, we find consistent supersymmetric (AdS) vacua at weak gauge coupling, provided we allow for general internal gauge bundles. In simple cases we perform a counting of such vacua and find that a fraction of about 1/1000 leads to a gauge coupling consistent with gauge unification. © SISSA 2006.