Future lepton colliders, such as those based on linear e+e− or circular μ+μ− accelerators, are expected to attain centre-of-mass energies in the multi-TeV range. In this regime the impact of QED and of weak radiation, in both the initial and the final state, can become a leading effect. By employing a general framework presented in a companion paper — suitable for any flavour of colliding leptons — we improve next-to-leading order electroweak predictions by including higher-order contributions, which encompass, but are not limited to, vector-boson-fusion processes. We apply this approach to the study of t¯t and W+W− production at a muon collider operating at centre-of-mass energies up to 10TeV. We show that such an approach, where both QED and weak contributions are included at fixed order, in addition to the all-order resummation of initial-state QED effects, can provide predictions for arbitrary observables in all of the phase space which are precise at the percent level.
Precision phenomenology at multi-TeV muon colliders / S. Frixione, F. Maltoni, D. Pagani, M. Zaro. - In: JOURNAL OF HIGH ENERGY PHYSICS. - ISSN 1029-8479. - 2025:9(2025 Sep 03), pp. 36.1-36.47. [10.1007/jhep09(2025)036]
Precision phenomenology at multi-TeV muon colliders
M. Zaro
Ultimo
2025
Abstract
Future lepton colliders, such as those based on linear e+e− or circular μ+μ− accelerators, are expected to attain centre-of-mass energies in the multi-TeV range. In this regime the impact of QED and of weak radiation, in both the initial and the final state, can become a leading effect. By employing a general framework presented in a companion paper — suitable for any flavour of colliding leptons — we improve next-to-leading order electroweak predictions by including higher-order contributions, which encompass, but are not limited to, vector-boson-fusion processes. We apply this approach to the study of t¯t and W+W− production at a muon collider operating at centre-of-mass energies up to 10TeV. We show that such an approach, where both QED and weak contributions are included at fixed order, in addition to the all-order resummation of initial-state QED effects, can provide predictions for arbitrary observables in all of the phase space which are precise at the percent level.
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