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N=1 SQCD-like theories with N_f massive flavors from AdS/CFT and beta functions

arXiv:1107.4002 · doi:10.1007/JHEP09(2011)086

Abstract

We study new supergravity solutions related to large-$N_c$ ${\cal N}=1$ supersymmetric gauge field theories with a large number $N_f$ of massive flavors. We use a recently proposed framework based on configurations with $N_c$ color D5 branes and a distribution of $N_f$ flavor D5 branes, governed by a function $N_f S(r)$. Although the system admits many solutions, under plausible physical assumptions the relevant solution is uniquely determined for each value of $x\equiv N_f/N_c$. In the IR region, the solution smoothly approaches the deformed Maldacena-Núñez solution. In the UV region it approaches a linear dilaton solution. For $x<2$ the gauge coupling $β_g $ function computed holographically is negative definite, in the UV approaching the NSVZ $β$ function with anomalous dimension $γ_0= -1/2$ (approaching $-3/(32π^2)(2N_c-N_f)g^3$)), and with $β_g \to-\infty $ in the IR. For $x=2$, $β_g$ has a UV fixed point at strong coupling, suggesting the existence of an IR fixed point at a lower value of the coupling. We argue that the solutions with $x>2$ describe a "Seiberg dual" picture where $N_f-2N_c$ flips sign.

18 pages, 10 figures