D3-branes on the Coulomb branch and instantons

Abstract

The relative coefficients of higher derivative interactions of the IIB effective action of the form C4, (D F5)4, F58, ... (where C is the Weyl tensor and F5 is the five-form field strength) are motivated by supersymmetry arguments. It is shown that the classical supergravity solution for N parallel D3-branes is unaltered by this combination of terms. The non-vanishing of 2 in this background (where C is the background value of the Weyl tensor) leads to effective O(1/alpha') interactions, such as C2 and Lambda8 (where Lambda is the dilatino). These contain D-instanton contributions in addition to tree and one-loop terms. The near horizon limit of the N D3-brane system describes a multi-AdS5xS5 geometry that is dual to =4 SU(N) Yang-Mills theory spontaneously broken to S(U(M1)x...xU(Mr)). Here, the N D3-branes are grouped into r coincident bunches with Mr in each group, with Mr/N = mr fixed as N goes to infinity. The boundary correlation function of eight Lambda's is constructed explicitly. The second part of the paper considers effects of a constrained instanton in this large-N Yang-Mills theory by an extension of the analysis of Dorey, Hollowood and Khoze of the one-instanton measure at finite N. This makes precise the correspondence with the supergravity D-instanton measure at leading order in the 1/N expansion. However, the duality between instanton-induced correlation functions in Yang-Mills theory and the dual supergravity is somewhat obscured by complications relating to the structure of constrained instantons.

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