Downloads provided by UsageCountsDuality versus supersymmetry and compactification
Copyright policy )NSF| Research in Theoretical Elementary Particle Physics
BERGSHOEFF, E; KALLOSH, R; ORTIN, T;
Duality versus supersymmetry and compactification
We study the interplay between T-duality, compactification and supersymmetry. We prove that when the original configuration has unbroken space-time supersymmetries, the dual configuration also does if a special condition is met: the Killing spinors of the original configuration have to be independent on the coordinate which corresponds to the isometry direction of the bosonic fields used for duality. Examples of ``losers" (T-duals are not supersymmetric) and ``winners" (T-duals are supersymmetric) are given.
LaTeX file, 19 pages, U. of Groningen Report UG-8/94, Stanford U. Report SU-ITP-94-19, QMW College Report QMW-PH-94-13
Netherlands
- Queen Mary University of London United Kingdom
- Stanford University United States
- University of Groningen Netherlands
- Institute for Theoretical Physics Amsterdam Netherlands
High Energy Physics - Theory, STRING THEORY, SIGMA-MODELS, High Energy Physics - Theory (hep-th), SYMMETRIES, SUPERGRAVITY, FOS: Physical sciences, SOLITONS, BLACK-HOLES
High Energy Physics - Theory, STRING THEORY, SIGMA-MODELS, High Energy Physics - Theory (hep-th), SYMMETRIES, SUPERGRAVITY, FOS: Physical sciences, SOLITONS, BLACK-HOLES
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