Search for Top Squarks at Tevatron Inspired by Dark Matter and Electroweak Baryogenesis

Abstract

The search for the top squark (t1) within the kinematic reach of Tevatron Run II is of great contemporary interest. Such a t1 can explain the baryon asymmetry of the universe provided 120 ~GeV/c2 ≤ mt1 ≤ mt. Moreover if m mt1 - m_10 is small, where 10 is the LSP, the dark matter relic density as obtained from the WMAP data may be explained via t1- LSP coannihilation. In this scenario the decay t1 c 10 is likely to occur with 100 % branching ratio but for small m the conventional di-jet + ET signal becomes unobservable. We propose a new search strategy based on the 2j + ET signature accompanied by an isolated cluster of energy which arises from a decaying heavy particle with characteristic decay length. Our preliminary simulations with PYTHIA indicate that for 100 ~GeV/c2 mt1 130 ~GeV/c2 this signal may be observable while somewhat lager mt1 may still provide hints of new physics.