Grand unified theory constrained supersymmetry and neutrinoless double beta decay

Abstract

We analyze the contributions to the neutrinoless double β decay (0ββ-decay) coming from the Grand Unified Theory (GUT) constrained Minimal Supersymmetric Standard Model (MSSM) with trilinear R-parity breaking. We discuss the importance of two-nucleon and pion-exchange realizations of the quark-level 0ββ-decay transitions. In this context, the questions of reliability of the calculated relevant nuclear matrix elements within the Renormalized Quasiparticle Random Phase Approximation (pn-RQRPA) for several medium and heavy open-shell nuclei are addressed. The importance of gluino and neutralino contributions to 0ββ-decay is also analyzed. We review the present experiments and deduce limits on the trilinear R-parity breaking parameter λ111' from the non-observability of 0ββ-decay for different GUT constrained SUSY scenarios. In addition, a detailed study of limits on the MSSM parameter space coming from the B Xs γ processes by using the recent CLEO and OPAL results is performed. Some studies in respect to the future 0ββ-decay project GENIUS are also presented.

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