Endpoint factorization and next-to-leading power resummation of gluon thrust

Martin Beneke; Mathias Garny; Sebastian Jaskiewicz; Julian Strohm; Robert Szafron; Leonardo Vernazza; Jian Wang

Endpoint factorization and next-to-leading power resummation of gluon thrust

Martin Beneke, Mathias Garny, Sebastian Jaskiewicz, Julian Strohm, Robert Szafron, Leonardo Vernazza, Jian Wang

Chair of Theoretical Elementary Particle Physics

Research output: Contribution to journal › Conference article › peer-review

1 Scopus citations

Abstract

Endpoint divergences in the convolution integrals appearing in next-to-leading-power factorization theorems prevent a straightforward application of standard methods to resum large logarithmic power-suppressed corrections in collider physics. We study the power-suppressed configuration of the thrust distribution in the two-jet region, where a gluon-initiated jet recoils against a quark-antiquark pair. With the aid of operatorial endpoint factorization conditions, we derive a factorization formula where the individual terms are free from endpoint divergences and can be written in terms of renormalized hard, (anti) collinear, and soft functions in four dimensions. This framework enables us to perform the first resummation of the endpoint-divergent SCET_I observables at the leading logarithmic accuracy using exclusively renormalization-group methods.

Original language	English
Article number	068
Journal	Proceedings of Science
Volume	416
State	Published - 20 Oct 2022
Event	2022 Loops and Legs in Quantum Field Theory, LL 2022 - Ettal, Germany Duration: 25 Apr 2022 → 30 Apr 2022

Cite this

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title = "Endpoint factorization and next-to-leading power resummation of gluon thrust",

abstract = "Endpoint divergences in the convolution integrals appearing in next-to-leading-power factorization theorems prevent a straightforward application of standard methods to resum large logarithmic power-suppressed corrections in collider physics. We study the power-suppressed configuration of the thrust distribution in the two-jet region, where a gluon-initiated jet recoils against a quark-antiquark pair. With the aid of operatorial endpoint factorization conditions, we derive a factorization formula where the individual terms are free from endpoint divergences and can be written in terms of renormalized hard, (anti) collinear, and soft functions in four dimensions. This framework enables us to perform the first resummation of the endpoint-divergent SCETI observables at the leading logarithmic accuracy using exclusively renormalization-group methods.",

author = "Martin Beneke and Mathias Garny and Sebastian Jaskiewicz and Julian Strohm and Robert Szafron and Leonardo Vernazza and Jian Wang",

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T1 - Endpoint factorization and next-to-leading power resummation of gluon thrust

AU - Beneke, Martin

AU - Garny, Mathias

AU - Jaskiewicz, Sebastian

AU - Strohm, Julian

AU - Szafron, Robert

AU - Vernazza, Leonardo

AU - Wang, Jian

N1 - Publisher Copyright: © Copyright owned by the author(s) under the terms of the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License (CC BY-NC-ND 4.0)

PY - 2022/10/20

Y1 - 2022/10/20

N2 - Endpoint divergences in the convolution integrals appearing in next-to-leading-power factorization theorems prevent a straightforward application of standard methods to resum large logarithmic power-suppressed corrections in collider physics. We study the power-suppressed configuration of the thrust distribution in the two-jet region, where a gluon-initiated jet recoils against a quark-antiquark pair. With the aid of operatorial endpoint factorization conditions, we derive a factorization formula where the individual terms are free from endpoint divergences and can be written in terms of renormalized hard, (anti) collinear, and soft functions in four dimensions. This framework enables us to perform the first resummation of the endpoint-divergent SCETI observables at the leading logarithmic accuracy using exclusively renormalization-group methods.

AB - Endpoint divergences in the convolution integrals appearing in next-to-leading-power factorization theorems prevent a straightforward application of standard methods to resum large logarithmic power-suppressed corrections in collider physics. We study the power-suppressed configuration of the thrust distribution in the two-jet region, where a gluon-initiated jet recoils against a quark-antiquark pair. With the aid of operatorial endpoint factorization conditions, we derive a factorization formula where the individual terms are free from endpoint divergences and can be written in terms of renormalized hard, (anti) collinear, and soft functions in four dimensions. This framework enables us to perform the first resummation of the endpoint-divergent SCETI observables at the leading logarithmic accuracy using exclusively renormalization-group methods.

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M3 - Conference article

AN - SCOPUS:85140874279

SN - 1824-8039

VL - 416

JO - Proceedings of Science

JF - Proceedings of Science

M1 - 068

T2 - 2022 Loops and Legs in Quantum Field Theory, LL 2022

Y2 - 25 April 2022 through 30 April 2022

ER -

Endpoint factorization and next-to-leading power resummation of gluon thrust

Abstract

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