Theory for the FCC-ee : Report on the 11th FCC-ee Workshop
A. Blondel, J. Gluza, S. Jadach, P. Janot, T. Riemann, S. Abreu, J.J., Aguilera-Verdugo, A.B. Arbuzov, J. Baglio, S.D. Bakshi, S. Banerjee, M., Beneke, C. Bobeth, C. Bogner, S. Bondarenko, S. Borowka, S. Bra{\ss}, C.M., Carloni Calame, J. Chakrabortty, M. Chiesa, M. Chrzaszcz

TL;DR
This paper reports on the 11th FCC-ee workshop, focusing on the theoretical challenges and developments needed for precision calculations in the proposed high-energy electron-positron collider, covering Standard Model and beyond.
Contribution
It provides a comprehensive overview of the theoretical requirements, new mathematical methods, and software tools needed for FCC-ee precision physics analyses.
Findings
Discussion of the theoretical precision needed for key parameters.
Deepening of methods for multi-loop calculations.
Analysis of beyond Standard Model phenomenology.
Abstract
The Future Circular Collider (FCC) at CERN, a proposed 100-km circular facility with several colliders in succession, culminates with a 100 TeV proton-proton collider. It offers a vast new domain of exploration in particle physics, with orders of magnitude advances in terms of Precision, Sensitivity and Energy. The implementation plan foresees, as a first step, an Electroweak Factory electron-positron collider. This high luminosity facility, operating between 90 and 365 GeV centre-of-mass energy, will study the heavy particles of the Standard Model, Z, W, Higgs, and top with unprecedented accuracy. The Electroweak Factory collider constitutes a real challenge to the theory and to precision calculations, triggering the need for the development of new mathematical methods and software tools. A first workshop in 2018 had focused on the first FCC-ee stage, the Tera-Z, and…
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