YFS Exponentiation -- Gate to Precision Accelerator Physics Experiments

B.F.L. Ward (Baylor University; Waco; TX; USA)

arXiv:2410.06226·hep-ph·October 10, 2024

YFS Exponentiation -- Gate to Precision Accelerator Physics Experiments

B.F.L. Ward (Baylor University, Waco, TX, USA)

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TL;DR

This paper reviews the development and current state of the YFS Monte Carlo method, a crucial tool for achieving high-precision theoretical predictions in accelerator physics experiments.

Contribution

It highlights the historical development and key contributions of Prof. Stanislaw Jadach to the YFS Monte Carlo approach for precision accelerator physics.

Findings

01

YFS Monte Carlo significantly improves theoretical precision in accelerator experiments.

02

The approach has been successfully applied in various high-energy physics analyses.

03

Prof. Jadach's work has been instrumental in advancing this computational method.

Abstract

We present the history and current status of the YFS Monte Carlo approach to precision theory for accelerator physics experiments. Key contributions of Prof. Stanislaw Jadach are highlighted

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Taxonomy

TopicsParticle Detector Development and Performance · Particle accelerators and beam dynamics · Particle Accelerators and Free-Electron Lasers