Quantum folded string and integrability: From finite size effects to Konishi dimension

Abstract

Using the algebraic curve approach we one-loop quantize the folded string solution for the type IIB superstring in AdS5 × S5. We obtain an explicit result valid for arbitrary values of its Lorentz spin S and R-charge J in terms of integrals of elliptic functions. Then we consider the limit S ∼ J ∼ 1 and derive the leading three coefficients of strong coupling expansion of short operators. Notably, our result evaluated for the anomalous dimension of the Konishi state gives 2λ1/4?4+2/ lambda;1/4. This reproduces correctly the values predicted numerically in arXiv:0906.4240. Furthermore we compare our result using some new numerical data from the Y-system for another similar state. We also revisited some of the large S computations using our methods. In particular, we derive finite-size corrections to the anomalous dimension of operators with small J in this limit. © 2011 SISSA.