Top Quark Spin Correlations with the CMS Detector by Jason R. Thieman Hardcover

Description: Top Quark Spin Correlations with the CMS Detector by Jason R. Thieman The differential top quark precision measurements of polarizations and spin correlations presented in this dissertation may potentially lead to breakthroughs in several key areas: observing quantum entanglement and Bells Inequality violations in a hadronic system, discovering toponium, illuminating supersymmetry, interpreting field theories beyond the Standard Model, and advancing the understanding of electroweak vacuum stability.Additionally, this thesis provides a significantly improved understanding of CMS detector lepton trigger efficiencies, which has greatly enhanced the search for Lorentz invariance violation in top quark events, boosting the sensitivity by greater than a factor of 100.Finally, the thesis includes TCAD simulations that explore the feasibility of using the initial transient induced current, as described by the Ramo-Shockley Theorem, to achieve the picosecond timing precision in silicon pixel detectors needed for four-dimensional tracking. FORMAT Hardcover CONDITION Brand New Author Biography Jason is deeply passionate about the elementary interactions between matter and energy and their application in sensor and technology development. During his Ph.D. work on Large Hadron Collider experiments, he focused on precision measurements of top quark properties and simulating and testing prototype silicon detectors in radiation environments. Currently, as a physicist and systems engineer, Jason is developing new, advanced methods for testing single event effects in 3D heterogeneously integrated electronic components and circuits. He aims to revolutionize the design process for radiation-hardened electronics, facilitating the rapid deployment of next-generation technologies for space and other applications. Table of Contents 1 Motivation and Theoretical Overview.- 2 The Compact Muon Experiment at the Large Hadron Collider.- 3 Top Quark Physics at the Large Hadron Collider.- 4 Monte Carlo Event Simulation.- 5 Datasets, Event Selection, and t¯t Kinematic Reconstruction.- 6 Measurements of Differential Cross-Sections.- 7 Results.- 8 Summary and Outlook.1 Motivation and Theoretical Overview.- 2 The Compact Muon Experiment at the Large Hadron Collider.- 3 Top Quark Physics at the Large Hadron Collider.- 4 Monte Carlo Event Simulation.- 5 Datasets, Event Selection, and t¯t Kinematic Reconstruction.- 6 Measurements of Differential Cross-Sections.- 7 Results.- 8 Summary and Outlook. Details ISBN3031761162 Author Jason R. Thieman Publisher Springer International Publishing AG Series Springer Theses ISBN-13 9783031761164 Format Hardcover Imprint Springer International Publishing AG Place of Publication Cham Country of Publication Switzerland Alternative 9783031761195 Audience Professional & Vocational Edition Description 2024 ed. Edition 2024th Pages 166 Illustrations 135 Illustrations, color; 4 Illustrations, black and white; XVI, 166 p. 139 illus., 135 illus. in color. Year 2024 Publication Date 2024-12-05 DEWEY 539.72167 We've got this At The Nile, if you're looking for it, we've got it. With fast shipping, low prices, friendly service and well over a million items - you're bound to find what you want, at a price you'll love! TheNile_Item_ID:168914834;

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