New Developments in Precision LHC Theory: QEDXQCD Exponentiation, Shower/ME Matching, IR-Improved DGLAP-CS Theory and Implications for UV Finite Quantum Gravity
B.F.L. Ward (1), S.A. Yost (2) ((1) Department of Physics, Baylor, University, Waco, TX, USA, (2) Department of Physics, Princeton University,, Princeton, NJ, USA)
TL;DR
This paper discusses recent advances in amplitude-based resummation techniques for non-Abelian gauge theories, focusing on their applications to precision LHC physics and implications for a UV finite quantum gravity theory.
Contribution
It introduces new developments in QEDXQCD exponentiation, shower/ME matching, and IR-improved DGLAP-CS theory, linking them to quantum gravity.
Findings
Enhanced precision in LHC theoretical predictions
Development of IR-improved DGLAP-CS evolution equations
Implications for UV finiteness in quantum gravity
Abstract
We present the recent developments in exact amplitude-based resummation methods for non-Abelian gauge theories as they relate to precision LHC physics. We discuss QEDXQCD exponentiation, shower/ME matching, IR-improved DGLAP-CS theory and implications, as developed by one of us (BFLW), for a UV finite theory of quantum general relativity.
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Taxonomy
TopicsParticle physics theoretical and experimental studies · Quantum Chromodynamics and Particle Interactions · High-Energy Particle Collisions Research