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Low-Energy Effective Lagrangian from Non-Minimal Supergravity with
Unified Gauge Symmetry
release_qc44y5tqz5chbi7b4esfbvjfqm
by
Yoshiharu Kawamura
Released
as a report
.
1995
Abstract
From general supergravity theory with unified gauge symmetry, we obtain the
low-energy effective Lagrangian by taking the flat limit and integrating out
the superheavy fields in model-independent manner. The scalar potential
possesses some excellent features. Some light fields classified by using
supersymmetric fermion mass, in general, would get intermediate masses at the
tree level after the supersymmetry is broken. We show that the stability of
weak scale can be guaranteed under some conditions. There exist extra
non-universal contributions to soft supersymmetry breaking terms which can give
an impact on phenomenological study.
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