Theoretical challenges for flavor physics

Yuval Grossman; Zoltan Ligeti

arXiv:2106.12168·hep-ph·August 12, 2021

Theoretical challenges for flavor physics

Yuval Grossman, Zoltan Ligeti

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TL;DR

The paper outlines the potential of FCC-ee in advancing flavor physics by testing precision calculations, probing QCD, and enhancing sensitivity to new physics beyond the standard model, often outperforming current experiments.

Contribution

It highlights the specific advantages and new opportunities that FCC-ee offers for flavor physics research compared to existing and upcoming experiments.

Findings

01

FCC-ee will significantly improve tests of flavor physics.

02

It will enhance understanding of nonperturbative QCD methods.

03

FCC-ee will increase sensitivity to physics beyond the standard model.

Abstract

We discuss some highlights of the FCC-ee flavor physics program. It will help to explore various aspects of flavor physics: to test precision calculations, to probe nonperturbative QCD methods, and to increase the sensitivity to physics beyond the standard model. In some areas, FCC-ee will do much better than current and near-future experiments. We briefly discuss several probes that can be relevant for maximizing the gain from the FCC-ee flavor program.

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