Gluino Condensation in Strongly Coupled Heterotic String Theory
Abstract
Strongly coupled heterotic E8× E8 string theory, compactified to four dimensions on a large Calabi-Yau manifold X, may represent a viable candidate for the description of low-energy particle phenomenology. In this regime, heterotic string theory is adequately described by low-energy M-theory on R4× S1/ Z2× X, with the two E8's supported at the two boundaries of the world. In this paper we study the effects of gluino condensation, as a mechanism for supersymmetry breaking in this M-theory regime. We show that when a gluino condensate forms in M-theory, the conditions for unbroken supersymmetry can still be satisfied locally in the orbifold dimension S1/ Z2. Supersymmetry is then only broken by the global topology of the orbifold dimension, in a mechanism similar to the Casimir effect. This mechanism leads to a natural hierarchy of scales, and elucidates some aspects of heterotic string theory that might be relevant to the stabilization of moduli and the smallness of the cosmological constant.
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