Holographic description of D3-branes in flat space

Abstract

We describe a scheme for constructing the holographic dual of the full D3-brane geometry with charge K by embedding it into a large anti-de Sitter space of size N. Such a geometry is realized in a multi-center anti-de Sitter geometry which admits a simple field theory interpretation as SU(N+K) gauge theory broken to SU(N) × SU(K). We find that the characteristic size of the D3-brane geometry is of order (K/N)1/4 U0 where U0 is the scale of the Higgs. By choosing N to be much larger than K, the scale of the D3-brane metric can be well separated from the Higgs scale in the radial coordinate. We generalize the holographic energy-distance relation and estimate the characteristic energy scale associated with these radial scales, and find that the E/U relation becomes effectively U independent in the range (K/N)1/2 U0 < U < U0. This implies that all detailed structure of the D3-brane geometry is encoded in the fine structure of the boundary gauge theory at around the Higgs scale.