Engineering a bosonic AdS/CFT correspondence
摘要
We search for a possible bosonic (i.e. non-supersymmetric) string/gauge theory correspondence by using IIB and 0B strings as a guide. Our construction is based on the low-energy bosonic string effective action modified by an extra form flux. The closed string tachyon can be stabilyzed if the AdS scale L does not exceed certain critical value, L<L_c. We argue that the extra form may be generated as a soliton from 3-string junctions, similarly to the known non-perturbative (Jackiw-Rebbi-'t Hooft-Hasenfratz) mechanism in gauge theories. The stable AdS_{13} x S^{13} solution is found, which apparently implies the existence of a 12-dimensional AdS-boundary conformal field theory with the SO(14) global symmetry in the large N 't Hooft limit. We also generalize the conjectured AdS/CFT duality to finite temperature, and calculate the `glueball' masses from the dilaton wave equation in the AdS black hole background, in various spacetime dimensions.
引用
@article{arxiv.hep-th/0109081,
title = {Engineering a bosonic AdS/CFT correspondence},
author = {Sergei V. Ketov and Thorsten Leonhardt and Werner Rühl},
journal= {arXiv preprint arXiv:hep-th/0109081},
year = {2007}
}
备注
20 pages, 1 Table, LaTeX; comments added, title changed