Abstract

It is shown that the effective five-dimensional theory of the strongly coupled heterotic string is a gauged version of N=1 five-dimensional supergravity with four-dimensional boundaries. For the universal supermultiplets, this theory is explicitly constructed by a generalized dimensional reduction procedure on a Calabi-Yau manifold. A crucial ingredient in the reduction is the retention of a "non-zero mode" of the four-form field strength, leading to the gauging of the universal hypermultiplet by the graviphoton. We show that this theory has an exact three-brane domain wall solution which reduces to Witten's "deformed" Calabi-Yau background upon linearization. This solution consists of two parallel three-branes with sources provided by the four-dimensional boundary theories and constitutes the appropriate background for a reduction to four dimensions. Four-dimensional space-time is then identified with the three-brane worldvolume.

Keywords

Dimensional reductionHeterotic string theoryBraneSupergravityPhysicsManifold (fluid mechanics)M-theoryString theoryReduction (mathematics)Brane cosmologyString (physics)Theoretical physicsBoundary (topology)LinearizationExtra dimensionsDomain (mathematical analysis)Space (punctuation)Domain wall (magnetism)Effective field theoryMathematical physicsMathematicsMathematical analysisSupersymmetryGeometryQuantum mechanicsNonlinear systemComputer science

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Publication Info

Year
1999
Type
article
Volume
59
Issue
8
Citations
584
Access
Closed

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André Lukas, Burt A. Ovrut, K.S. Stelle et al. (1999). Universe as a domain wall. Physical review. D. Particles, fields, gravitation, and cosmology/Physical review. D. Particles and fields , 59 (8) . https://doi.org/10.1103/physrevd.59.086001

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DOI
10.1103/physrevd.59.086001