Vacuum structures of supersymmetric noncompact gauge theory
Abstract
We consider models with a noncompact symmetry in the framework of N=1 supersymmetry. Contrary to the conventional approach, the noncompact symmetry is realized linearly on all fields without constraints. The models are constructed using noncanonical Kähler function and gauge kinetic function, which is introduced for the local case. It is explained that the symmetry needs to be spontaneously broken for the consistency of a model. We study the vacuum structures of two models with the noncompact symmetry SU(1,1) for both global and local cases. One of them includes two fundamental representations of the group and the other includes one adjoint representation. It is shown that the former is consistent for the global case and the latter is consistent for both the global and local cases.
 Publication:

Nuclear Physics B
 Pub Date:
 July 2010
 DOI:
 10.1016/j.nuclphysb.2010.03.004
 arXiv:
 arXiv:0909.4670
 Bibcode:
 2010NuPhB.833..108I
 Keywords:

 High Energy Physics  Theory;
 High Energy Physics  Phenomenology
 EPrint:
 36 pages