Following Black Hole States

Abstract

We study N=4 SYM at non-integer number of colours. By varying N we can continuously follow states all the way from N=∞ where integrability reigns to finite N where quantum gravity effects dominate. As an application we consider classically 1/16 BPS states. Quantum mechanically, these states are generically non-supersymmetric but some special states - at special values of N - become super-symmetric at the quantum level as well. They are the so-called quantum black hole states studied recently using cohomology. We write down the form of the lightest BH state at N=2 - and follow it in N, both at weak coupling and - more speculatively - at strong coupling as well. At weak coupling this state has protected dimension =19/2 at N=2 and becomes a triple trace made out of Konishi and two light BPS operators at infinite N with =19/2+12λ+…. At strong coupling we suspect it becomes a quadruple trace with dimension 19/2+integer.