EW corrections and heavy boson radiation at a high-energy muon collider

Summary

This theoretical physics paper investigates electroweak corrections relevant to direct production processes at a high-energy muon collider. The authors compare approximate analytical methods (the Denner-Pozzorini Sudakov approximation) against exact next-to-leading-order electroweak calculations, and evaluate the importance of resumming electroweak logarithms and including additional heavy boson radiation across collision energies of 3 and 10 TeV. Results are generated using the automated code adraph5_a@.

UK applicability

This paper is not applicable to UK agricultural, soil, or food systems research. It concerns fundamental physics calculations for particle collider phenomenology.

Key measures

Accuracy of Sudakov approximation relative to exact NLO electroweak calculations; resummed electroweak Sudakov logarithms; contributions from heavy boson radiation

Outcomes reported

The study compared the accuracy of the Sudakov approximation (Denner-Pozzorini algorithm) with exact next-to-leading-order electroweak calculations, and assessed the impact of heavy boson radiation (W, Z, and Higgs) on inclusive and semi-inclusive processes at 3 and 10 TeV collisions.

Topic tags