Systematics of quark/gluon tagging

Philippe Gras; Stefan Höche; Deepak Kar; Andrew Larkoski; Leif Lönnblad; Simon Plätzer; Andrzej Siódmok; Peter Skands; Gregory Soyez; Jesse Thaler

doi:10.1007/JHEP07(2017)091

Systematics of quark/gluon tagging

Philippe Gras, Stefan Höche, Deepak Kar, Andrew Larkoski, Leif Lönnblad, Simon Plätzer, Andrzej Siódmok, Peter Skands, Gregory Soyez, Jesse Thaler

Theoretical Particle Physics - Undergoing reorganization

Research output: Contribution to journal › Article › peer-review

Abstract

By measuring the substructure of a jet, one can assign it a “quark” or “gluon” tag. In the eikonal (double-logarithmic) limit, quark/gluon discrimination is determined solely by the color factor of the initiating parton (C_F versus C_A). In this paper, we confront the challenges faced when going beyond this leading-order understanding, using both parton-shower generators and first-principles calculations to assess the impact of higher-order perturbative and nonperturbative physics. Working in the idealized context of electron-positron collisions, where one can define a proxy for quark and gluon jets based on the Lorentz structure of the production vertex, we find a fascinating interplay between perturbative shower effects and nonperturbative hadronization effects. Turning to proton-proton collisions, we highlight a core set of measurements that would constrain current uncertainties in quark/gluon tagging and improve the overall modeling of jets at the Large Hadron Collider.

Original language	English
Article number	91
Journal	Journal of High Energy Physics
Volume	2017
Issue number	7
DOIs	https://doi.org/10.1007/JHEP07(2017)091
Publication status	Published - 2017 Jul 1

Subject classification (UKÄ)

Subatomic Physics

Free keywords

Jets
QCD Phenomenology

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10.1007/JHEP07(2017)091

Innovative Network for Monte Carlo Event Generators for LHC Physics
Lönnblad, L., Sjostrand, T., Bierlich, C., Rasmussen, C., Sjödahl, M., Bellm, J., Chakraborty, S., Gellersen, L., Lifson, A., Plumberg, C., Prestel, S., Reuschle, C., Shah, H., Törnkvist, R., Utheim, M. & Zapp, K.
2017/04/01 → 2021/03/31
Project: Network
QCD Phenomenology and Event Generator Development
Lönnblad, L. & Gustafson, G.
2017/01/01 → 2020/12/31
Project: Commissioned research

Cite this

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title = "Systematics of quark/gluon tagging",

abstract = "By measuring the substructure of a jet, one can assign it a “quark” or “gluon” tag. In the eikonal (double-logarithmic) limit, quark/gluon discrimination is determined solely by the color factor of the initiating parton (CF versus CA). In this paper, we confront the challenges faced when going beyond this leading-order understanding, using both parton-shower generators and first-principles calculations to assess the impact of higher-order perturbative and nonperturbative physics. Working in the idealized context of electron-positron collisions, where one can define a proxy for quark and gluon jets based on the Lorentz structure of the production vertex, we find a fascinating interplay between perturbative shower effects and nonperturbative hadronization effects. Turning to proton-proton collisions, we highlight a core set of measurements that would constrain current uncertainties in quark/gluon tagging and improve the overall modeling of jets at the Large Hadron Collider.",

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AU - Gras, Philippe

AU - Höche, Stefan

AU - Kar, Deepak

AU - Larkoski, Andrew

AU - Lönnblad, Leif

AU - Plätzer, Simon

AU - Siódmok, Andrzej

AU - Skands, Peter

AU - Soyez, Gregory

AU - Thaler, Jesse

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AB - By measuring the substructure of a jet, one can assign it a “quark” or “gluon” tag. In the eikonal (double-logarithmic) limit, quark/gluon discrimination is determined solely by the color factor of the initiating parton (CF versus CA). In this paper, we confront the challenges faced when going beyond this leading-order understanding, using both parton-shower generators and first-principles calculations to assess the impact of higher-order perturbative and nonperturbative physics. Working in the idealized context of electron-positron collisions, where one can define a proxy for quark and gluon jets based on the Lorentz structure of the production vertex, we find a fascinating interplay between perturbative shower effects and nonperturbative hadronization effects. Turning to proton-proton collisions, we highlight a core set of measurements that would constrain current uncertainties in quark/gluon tagging and improve the overall modeling of jets at the Large Hadron Collider.

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DO - 10.1007/JHEP07(2017)091

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VL - 2017

JO - Journal of High Energy Physics

JF - Journal of High Energy Physics

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ER -

Systematics of quark/gluon tagging

Abstract

Subject classification (UKÄ)

Free keywords

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Projects

Innovative Network for Monte Carlo Event Generators for LHC Physics

QCD Phenomenology and Event Generator Development

Cite this