Vertical versus Diagonal Dimensional Reduction for p-branes
Abstract
In addition to the double-dimensional reduction procedure that employs world-volume Killing symmetries of -brane supergravity solutions and acts diagonally on a plot of versus spacetime dimension , there exists a second procedure of ``vertical'' reduction. This reduces the transverse-space dimension via an integral that superposes solutions to the underlying Laplace equation. We show that vertical reduction is also closely related to the recently-introduced notion of intersecting -branes. We illustrate this with examples, and also construct a new solution describing four intersecting membranes, which preserves of the supersymmetry. Given the two reduction schemes plus duality transformations at special points of the scalar modulus space, one may relate most of the -brane solutions of relevance to superstring theory. We argue that the maximum classifying duality symmetry for this purpose is the Weyl group of the corresponding Cremmer-Julia supergravity symmetry . We also discuss a separate class of duality-invariant -branes with .
Keywords
Cite
@article{arxiv.hep-th/9605082,
title = {Vertical versus Diagonal Dimensional Reduction for p-branes},
author = {H. Lu and C. N. Pope and K. S. Stelle},
journal= {arXiv preprint arXiv:hep-th/9605082},
year = {2009}
}
Comments
Latex, 21 pages, no figures. References added