English

Supergravity from D0-brane Quantum Mechanics

High Energy Physics - Theory 2016-06-17 v1 High Energy Physics - Lattice

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 N2N^2 behavior of the black hole internal energy to be E/N2=a0T14/5+a1T23/5+a2T29/5+E/N^2=a_0T^{14/5}+ a_1T^{23/5}+a_2T^{29/5}+\cdots with the supergravity prediction a0=7.41a_0=7.41 and unknown coefficients a1a_1, a2a_2, \ldots associated with stringy corrections. In order to test this duality we perform a lattice study of the gauge theory and extract a continuum, large-NN value of a0=7.4±0.5a_0=7.4\pm 0.5---the first direct confirmation of the supergravity prediction at finite temperature---and constrain the stringy corrections (a1=9.7±2.2a_1=-9.7\pm2.2 and a2=5.6±1.8a_2=5.6\pm1.8). We also study the sub-leading 1/N21/N^2 corrections to the internal energy.

Keywords

Cite

@article{arxiv.1606.04948,
  title  = {Supergravity from D0-brane Quantum Mechanics},
  author = {Evan Berkowitz and Enrico Rinaldi and Masanori Hanada and Goro Ishiki and Shinji Shimasaki and Pavlos Vranas},
  journal= {arXiv preprint arXiv:1606.04948},
  year   = {2016}
}

Comments

4 pages, 3 figures

R2 v1 2026-06-22T14:26:23.312Z