Title of article
Explicit supersymmetry breaking on boundaries of warped extra dimensions Original Research Article
Author/Authors
Lawrence J. Hall، نويسنده , , Yasunori Nomura، نويسنده , , Takemichi Okui، نويسنده , , Steven J. Oliver، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2004
Pages
28
From page
87
To page
114
Abstract
Explicit supersymmetry breaking is studied in higher-dimensional theories by having boundaries respect only a subgroup of the bulk symmetry. If the boundary symmetry is the maximal subgroup allowed by the boundary conditions imposed on the fields, then the symmetry can be consistently gauged; otherwise gauging leads to an inconsistent theory. In a warped fifth dimension, an explicit breaking of all bulk supersymmetries by the boundaries is found to be inconsistent with gauging; unlike the case of flat 5D, complete supersymmetry breaking by boundary conditions is not consistent with supergravity. Despite this result, the low energy effective theory resulting from boundary supersymmetry breaking becomes consistent in the limit where gravity decouples, and such models are explored in the hope that some way of successfully incorporating gravity can be found. A warped constrained standard model leads to a theory with one Higgs boson with mass expected close to the experimental limit. A unified theory in a warped fifth dimension is studied with boundary breaking of both SU(5) gauge symmetry and supersymmetry. The usual supersymmetric prediction for gauge coupling unification holds even though the TeV spectrum is quite unlike the MSSM. Such a theory may unify matter and Higgs in the same SU(5) hypermultiplet.
Journal title
Nuclear Physics B
Serial Year
2004
Journal title
Nuclear Physics B
Record number
879822
Link To Document