Generating branes via sigma-models
摘要
Starting with the D-dimensional Einstein-dilaton-antisymmetric form equations and assuming a block-diagonal form of a metric we derive a -dimensional -model with the target space or its non-compact form. Various solution-generating techniques are developed and applied to construct some known and some new -brane solutions. It is shown that the Harrison transformation belonging to the subgroup generates black -branes from the seed Schwarzschild solution. A fluxbrane generalizing the Bonnor-Melvin-Gibbons-Maeda solution is constructed as well as a non-linear superposition of the fluxbrane and a spherical black hole. A new simple way to endow branes with additional internal structure such as plane waves is suggested. Applying the harmonic maps technique we generate new solutions with a non-trivial shell structure in the transverse space (`matrioshka' -branes). It is shown that the -brane intersection rules have a simple geometric interpretation as conditions ensuring the symmetric space property of the target space. Finally, a Bonnor-type symmetry is used to construct a new magnetic 6-brane with a dipole moment in the ten-dimensional IIA theory.
引用
@article{arxiv.hep-th/9801160,
title = {Generating branes via sigma-models},
author = {D. V. Gal'tsov and O. A. Rytchkov},
journal= {arXiv preprint arXiv:hep-th/9801160},
year = {2009}
}
备注
21 pages Latex