A Simulated Study Of The Potential For The Discovery Of The Supersymmetric Bottom Squark At The Atlas Experiment In Cern

Supersymmetry is a theory that postulates the invariance of physical laws under the exchange of Bosons with Fermions and vice versa. As a consequence, within Supersymmetry exists a Supersymmetric partner for every fundamental particle found in the Standard Model. The partner for the bottom quark is the Sbottom squark. This study explores the possibilities of detecting the Sbottom squark at the Alternating Toroidal Large Hadron Collider Apparatus (ATLAS) in CERN. Working within the minimal Supergravity theoretical framework I simulate the mass, cross section and decay modes for the Sbottom using Monte Carlo techniques and study their possible signatures at ATLAS using the detector simulator in ISAJET. Consequently, a study of the physics objects determines the possibility of detection at the LHC energy scale.