Key points are not available for this paper at this time.
A bstract We combine supersymmetric localization with the numerical conformal bootstrap to bound the scaling dimension and OPE coefficient of the lowest-dimension unprotected operator in N N = 4 SU (N) super-Yang-Mills theory for a wide range of N and Yang-Mills couplings g YM. We find that our bounds are approximately saturated by weak coupling results at small g YM. Furthermore, at large N our bounds interpolate between integrability results for the Konishi operator at small g YM and strong-coupling results, including the first few stringy corrections, for the lowest-dimension double-trace operator at large g YM. In particular, our scaling dimension bounds describe the level splitting between the single- and double-trace operators at intermediate coupling.
Chester et al. (Mon,) studied this question.