Multiparticle Higgs and Vector Boson Amplitudes at Threshold
Abstract
In a spontaneously broken gauge theory we consider (sub)-processes in which one virtual intermediate state (it can be a Higgs or a gauge field) produces many on-shell Higgses and massive vector bosons. In the kinematic regime where all final states are produced on their mass threshold, we show how to compute iteratively all tree-level amplitudes involving an arbitrary number of Higgs bosons and of longitudinal vector bosons in the final state, and list the amplitudes coefficients for up to and . We find that these amplitudes exhibit factorial growth not only in the number of scalar fields, but also in the number of longitudinal gauge fields, . This growth is not expected to disappear at loop-level in the fixed-order perturbation theory. We conclude that at energies accessible at the next generation of hadron colliders, such as the 50-100 TeV FCC, where is sufficient to produce of and , perturbation theory breaks down when applied to the multiparticle electroweak production, at least near the kinematic multiparticle mass threshold where the electroweak gauge-Higgs sector becomes strongly coupled.
Cite
@article{arxiv.1404.4876,
title = {Multiparticle Higgs and Vector Boson Amplitudes at Threshold},
author = {Valentin V. Khoze},
journal= {arXiv preprint arXiv:1404.4876},
year = {2014}
}
Comments
v3: improved numerical values for m>24 v2: A Mathematica notebook with results and derivations is included with the submission files. 18 pages, 7 Figures