Edizione: Softcover reprint of the original 1st ed. 2018
The Standard Model.- Dark Matter.- Supersymmetry.- The ATLAS Detector at the LHC.- Validity of Effective Field Theory Dark Matter Models at the LHC.- Search for Dark Matter in Monojet-like Events.- Constraints on Simplified Dark Matter Models from Mono-X Searches.- Search for New Physics in Events with Missing Energy and Top Quarks.- Conclusions.
This book discusses searches for Dark Matter at the CERN’s LHC, the world’s most powerful accelerator. It introduces the relevant theoretical framework and includes an in-depth discussion of the Effective Field Theory approach to Dark Matter production and its validity, as well as an overview of the formalism of Simplified Dark Matter models. Despite overwhelming astrophysical evidence for Dark Matter and numerous experimental efforts to detect it, the nature of Dark Matter still remains a mystery and has become one of the hottest research topics in fundamental physics.
Two searches for Dark Matter are presented, performed on data collected with the ATLAS experiment. They analyze missing-energy final states with a jet or with top quarks. The analyses are explained in detail, and the outcomes and their interpretations are discussed, also in view of the precedent analysis of theoretical approaches. Given its depth of coverage, the book represents an excellent reference guide for all physicists interested in understanding the theoretical and experimental considerations relevant to Dark Matter searches at the LHC.
Johanna Gramling studied Physics at Heidelberg University, focusing on particle physics. For her Ph.D. at Geneva University she joined the ATLAS Experiment at the Large Hadron Collider at CERN. Her work has been centred on possible Dark Matter signatures at the LHC, studying proposed theoretical models and performing two searches for New Physics in missing-energy final states with an energetic jet or top quarks. After obtaining her Ph.D. she joined UC Irvine as a Postdoctoral Fellow, continuing the hunt for Dark Matter at the LHC.
Collana: Springer Theses
Dimensioni: 235 x 155 mm Ø 462 gr
Illustration Notes:107 Illustrations, black and white
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