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Hauptverfasser: Hagiwara, Kaoru, Kanzaki, Junichi, Maltoni, Fabio, Mawatari, Kentarou, Zheng, Ya-Juan
Format: Preprint
Veröffentlicht: 2026
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Online-Zugang:https://arxiv.org/abs/2603.01139
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author Hagiwara, Kaoru
Kanzaki, Junichi
Maltoni, Fabio
Mawatari, Kentarou
Zheng, Ya-Juan
author_facet Hagiwara, Kaoru
Kanzaki, Junichi
Maltoni, Fabio
Mawatari, Kentarou
Zheng, Ya-Juan
contents Multi-channel phase space with a single Feynman diagram enhancement is a powerful tool for high-energy physics event generation if a diagram with a singular propagator dominates the total scattering amplitude at the corresponding singular kinematical region, and when the interference among amplitudes is not larger than the square of each amplitude. These conditions are satisfied in the Feynman-diagram-gauge amplitudes for both unbroken (QED and QCD) and broken (EW) gauge theories. We illustrate the usefulness of this method in lepton collider processes that are challenging to accurately simulate at very high energies, i.e., $ l\bar{l} \to ν_l \barν_l t\bar{t} H $, $ l \barν_l t\bar{b} H $, and $ l \bar{l} t\bar{t} H $, in the SMEFT with a complex top-Yukawa coupling. The total cross sections of the latter two processes contain lepton-mass singularities arising from $t$-channel photon-exchange diagrams. To address this issue, we develop a phase-space parametrization that accurately generates the distributions of forward-emitted charged leptons. We modify the \HELAS\ library to evaluate helicity amplitudes in the singular region so that vertices at very small invariant momentum square of order $m_e^2$ can be accurately evaluated even at multi-TeV energies.
format Preprint
id arxiv_https___arxiv_org_abs_2603_01139
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Multi-channel phase space with Feynman-diagram-gauge amplitudes
Hagiwara, Kaoru
Kanzaki, Junichi
Maltoni, Fabio
Mawatari, Kentarou
Zheng, Ya-Juan
High Energy Physics - Phenomenology
Computational Physics
Multi-channel phase space with a single Feynman diagram enhancement is a powerful tool for high-energy physics event generation if a diagram with a singular propagator dominates the total scattering amplitude at the corresponding singular kinematical region, and when the interference among amplitudes is not larger than the square of each amplitude. These conditions are satisfied in the Feynman-diagram-gauge amplitudes for both unbroken (QED and QCD) and broken (EW) gauge theories. We illustrate the usefulness of this method in lepton collider processes that are challenging to accurately simulate at very high energies, i.e., $ l\bar{l} \to ν_l \barν_l t\bar{t} H $, $ l \barν_l t\bar{b} H $, and $ l \bar{l} t\bar{t} H $, in the SMEFT with a complex top-Yukawa coupling. The total cross sections of the latter two processes contain lepton-mass singularities arising from $t$-channel photon-exchange diagrams. To address this issue, we develop a phase-space parametrization that accurately generates the distributions of forward-emitted charged leptons. We modify the \HELAS\ library to evaluate helicity amplitudes in the singular region so that vertices at very small invariant momentum square of order $m_e^2$ can be accurately evaluated even at multi-TeV energies.
title Multi-channel phase space with Feynman-diagram-gauge amplitudes
topic High Energy Physics - Phenomenology
Computational Physics
url https://arxiv.org/abs/2603.01139