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Vacuum Instability in Anomaly Mediation Models with Massive Neutrinos

arXiv:hep-ph/0010124 · doi:10.1103/PhysRevD.63.083510

Abstract

We study the vacuum stability in the anomaly mediated supersymmetry (SUSY) breaking models with massive neutrinos. It is shown that, because of the seesaw-induced mass terms for neutrinos, the true vacuum has a large negative cosmological constant provided that the vacuum where we now live has an (almost) vanishing cosmological constant. Although the quantum transition into the true vacuum from our false vacuum is highly suppressed, the thermal transition at high temperatures may not be neglected because of the thermal excitations. However, we find that the thermal transition is, in fact, negligibly small and hence the anomaly mediation models are cosmologically safe. Thus, we conclude that the reheating temperature T_R could be very high (e.g. T_R >> 10^10 GeV) in the anomaly mediation models even with the seesaw-induced mass terms for neutrinos.

13 pages, One reference and one footnote are added