Probing Compressed Bottom Squarks with Boosted Jets and Shape Analysis

Abstract

A feasibility study is presented for the search of the lightest bottom squark (sbottom) in a compressed scenario, where its mass difference from the lightest neutralino is 5 GeV. Two separate studies are performed: (1) final state containing two VBF-like tagging jets, missing transverse energy, and zero or one b-tagged jet; and (2) final state consisting of initial state radiation (ISR) jet, missing transverse energy, and at least one b-tagged jet. An analysis of the shape of the missing transverse energy distribution for signal and background is performed in each case, leading to significant improvement over a cut and count analysis, especially after incorporating the consideration of systematics and pileup. The shape analysis in the VBF-like tagging jet study leads to a 3σ exclusion potential of sbottoms with mass up to 530 \, (462) GeV for an integrated luminosity of 300 fb-1 at 14 TeV, with 5\% systematics and PU = 0 \, (50).