English

Vertical versus Diagonal Dimensional Reduction for p-branes

High Energy Physics - Theory 2009-10-07 v2

Abstract

In addition to the double-dimensional reduction procedure that employs world-volume Killing symmetries of pp-brane supergravity solutions and acts diagonally on a plot of pp versus spacetime dimension DD, 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 pp-branes. We illustrate this with examples, and also construct a new D=11D=11 solution describing four intersecting membranes, which preserves 1/161/16 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 pp-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 Er(+r)E_{r(+r)}. We also discuss a separate class of duality-invariant pp-branes with p=D3p=D-3.

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