# Generalized Threshold Factorization with Full Collinear Dynamics

**Authors:** Gillian Lustermans, Johannes K. L. Michel, and Frank J. Tackmann

arXiv: 1908.00985 · 2019-08-06

## TL;DR

This paper introduces a generalized threshold factorization theorem for color-singlet processes, capturing soft and collinear effects more comprehensively than traditional methods, with applications to high-order calculations and PDF fits.

## Contribution

It develops a new factorization theorem valid in a broader kinematic limit, including flavor-nondiagonal channels, and demonstrates its application to NNLO and N3LO predictions for rapidity spectra.

## Key findings

- Explicit NNLO calculations for Z and Higgs rapidity spectra.
- Predictions for N3LO contributions to rapidity spectra.
- Identification of the correct soft threshold factorization among existing literature.

## Abstract

Soft threshold factorization has been used extensively to study hadronic collisions. It is derived in the limit where the momentum fractions $x_{a,b}$ of both incoming partons approach $x_{a,b}\to 1$. We present a generalized threshold factorization theorem for color-singlet processes, which holds in the weaker limit of only $x_a \to 1$ for generic $x_b$ (or vice versa), corresponding to the limit of large rapidity but generic invariant mass of the produced color singlet. It encodes the complete soft and/or collinear singular structure in the partonic momentum fractions to all orders in perturbation theory, including in particular flavor-nondiagonal partonic channels at leading power. It provides a more powerful approximation than the classic soft threshold limit, capturing a much larger set of contributions. We demonstrate this explicitly for the Z and Higgs rapidity spectrum to NNLO, and we use it to predict a nontrivial set of its N3LO contributions. Our factorization theorem provides the relevant resummation of large-$x$ logarithms in the rapidity spectrum required for resummation-improved PDF fits. One of our factorization ingredients is a new beam function closely related to the N-jettiness beam function. As a byproduct, we identify the correct soft threshold factorization for rapidity spectra among the differing results in the literature.

## Full text

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## Figures

25 figures with captions in the complete paper: https://tomesphere.com/paper/1908.00985/full.md

## References

79 references — full list in the complete paper: https://tomesphere.com/paper/1908.00985/full.md

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Source: https://tomesphere.com/paper/1908.00985