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A Geometry for Non-Geometric String Backgrounds

High Energy Physics - Theory 2009-11-10 v3 Differential Geometry

Abstract

A geometric string solution has background fields in overlapping coordinate patches related by diffeomorphisms and gauge transformations, while for a non-geometric background this is generalised to allow transition functions involving duality transformations. Non-geometric string backgrounds arise from T-duals and mirrors of flux compactifications, from reductions with duality twists and from asymmetric orbifolds. Strings in ` T-fold' backgrounds with a local nn-torus fibration and T-duality transition functions in O(n,n;Z)O(n,n;\Z) are formulated in an enlarged space with a T2nT^{2n} fibration which is geometric, with spacetime emerging locally from a choice of a TnT^n submanifold of each T2nT^{2n} fibre, so that it is a subspace or brane embedded in the enlarged space. T-duality acts by changing to a different TnT^n subspace of T2nT^{2n}. For a geometric background, the local choices of TnT^n fit together to give a spacetime which is a TnT^n bundle, while for non-geometric string backgrounds they do not fit together to form a manifold. In such cases spacetime geometry only makes sense locally, and the global structure involves the doubled geometry. For open strings, generalised D-branes wrap a TnT^n subspace of each T2nT^{2n} fibre and the physical D-brane is the part of the part of the physical space lying in the generalised D-brane subspace.

Keywords

Cite

@article{arxiv.hep-th/0406102,
  title  = {A Geometry for Non-Geometric String Backgrounds},
  author = {C M Hull},
  journal= {arXiv preprint arXiv:hep-th/0406102},
  year   = {2009}
}

Comments

28 Pages. Minor changes