Recent IR-Improved results for LHC/FCC physics

B.F.L. Ward (1); Aditi Mukhopadhyay (2); Bahram Shakerin (1); Zbigniew; A. Was (3); Scott A. Yost (4) ((1) Baylor University; Waco; TX; USA; (2); AstraZeneca; Chennai; India; (3) Institute of Nuclear Physics; Krakow,; Poland; (4) The Citadel; Charleston; SC; USA)

arXiv:1801.03303·hep-ph·October 10, 2018

Recent IR-Improved results for LHC/FCC physics

B.F.L. Ward (1), Aditi Mukhopadhyay (2), Bahram Shakerin (1), Zbigniew, A. Was (3), Scott A. Yost (4) ((1) Baylor University, Waco, TX, USA, (2), AstraZeneca, Chennai, India, (3) Institute of Nuclear Physics, Krakow,, Poland, (4) The Citadel, Charleston, SC, USA)

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TL;DR

This paper discusses recent advances in IR-improved resummation techniques for QED and QCD, implemented via Monte Carlo event generators, to enhance predictions for LHC and FCC physics experiments.

Contribution

It introduces new IR-improved resummation methods integrated into MC generators for more accurate collider physics simulations.

Findings

01

Improved accuracy in theoretical predictions for collider processes.

02

Enhanced Monte Carlo event generator capabilities.

03

Better modeling of infrared effects in QED and QCD.

Abstract

We present recent developments in the theory and application of IR-improved QED $\otimes$ QCD resummation methods, realized by MC event generator methods, for LHC and FCC physics scenarios.

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