Noncommutative Electromagnetism As A Large N Gauge Theory

Abstract

We map noncommutative (NC) U(1) gauge theory on RdC X R2nNC to U(N -> ∞) Yang-Mills theory on RdC, where RdC is a d-dimensional commutative spacetime while R2nNC is a 2n-dimensional NC space. The resulting U(N) Yang-Mills theory on RdC is equivalent to that obtained by the dimensional reduction of (d+2n)-dimensional U(N) Yang-Mills theory onto RdC. We show that the gauge-Higgs system (Aμ,a) in the U(N -> ∞) Yang-Mills theory on RdC leads to an emergent geometry in the (d+2n)-dimensional spacetime whose metric was determined by Ward a long time ago. In particular, the 10-dimensional gravity for d=4 and n=3 corresponds to the emergent geometry arising from the 4-dimensional N=4 vector multiplet in the AdS/CFT duality. We further elucidate the emergent gravity by showing that the gauge-Higgs system (Aμ,a) in half-BPS configurations describes self-dual Einstein gravity.