Open AccessSearches for Direct Pair Production of Third Generation Squarks with the ATLAS Detector
Author(s) -
F. Meloni
Publication year - 2018
Publication title -
international journal of modern physics conference series
Language(s) - English
Resource type - Journals
ISSN - 2010-1945
DOI - 10.1142/s2010194518600571
Subject(s) - supersymmetry , particle physics , physics , higgs boson , large hadron collider , r parity , third generation , pair production , atlas (anatomy) , atlas detector , hierarchy problem , lepton , physics beyond the standard model , nuclear physics , minimal supersymmetric standard model , standard model (mathematical formulation) , electron , biology , computer science , geography , telecommunications , paleontology , archaeology , gauge (firearms)
This document summarises recent ATLAS results for searches for third generation squarks using 36.1 [Formula: see text] of LHC proton-proton collision data collected at [Formula: see text] TeV. Despite the absence of experimental evidence, weak scale supersymmetry remains one of the best motivated and studied Standard Model extensions. Supersymmetry can naturally solve the Standard Model hierarchy problem by preventing a large fine-tuning in the Higgs sector: a typical natural SUSY spectrum contains light third generation squarks (stops and sbottoms). Both R-Parity conserving and R-Parity violating scenarios are considered. The searches involve final states including jets, missing transverse momentum, electrons or muons. Simplified models predicting pair production of third generation squarks have been excluded at 95% CL up to about one TeV in the most favourable scenarios.
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