Supergravity from D0-brane Quantum Mechanics

Abstract

The gauge/gravity duality conjecture claims the equivalence between gauge theory and superstring/M-theory. In particular, the one-dimensional gauge theory of D0-branes and type IIA string theory should agree on properties of hot black holes. Type IIA superstring theory predicts the leading N2 behavior of the black hole internal energy to be E/N2=a0T14/5+ a1T23/5+a2T29/5+·s with the supergravity prediction a0=7.41 and unknown coefficients a1, a2, … associated with stringy corrections. In order to test this duality we perform a lattice study of the gauge theory and extract a continuum, large-N value of a0=7.4 0.5---the first direct confirmation of the supergravity prediction at finite temperature---and constrain the stringy corrections (a1=-9.72.2 and a2=5.61.8). We also study the sub-leading 1/N2 corrections to the internal energy.