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Main Authors: Divisova, Michaela, Myska, Miroslav, Sarmah, Pratixan, Siódmok, Andrzej
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2509.02348
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author Divisova, Michaela
Myska, Miroslav
Sarmah, Pratixan
Siódmok, Andrzej
author_facet Divisova, Michaela
Myska, Miroslav
Sarmah, Pratixan
Siódmok, Andrzej
contents The modelling of the formation of colour-singlet hadrons from coloured partons, known as Hadronization, is crucial for generating realistic events in Monte Carlo Event Generators. Due to limited understanding of the non-perturbative regime, physically motivated phenomenological hadronization models with tunable parameters are used and later tuned to the experimental data. Modern Monte Carlo generators primarily employ one of two hadronization models: the Lund string model, which is the default in Pythia, and the cluster model, which is the default in Herwig and Sherpa. In this work, we combine the Lund string hadronization model, as implemented in Pythia 8, with Herwig 7 using TheP8I interface. We tune the string model with Herwig 7's Angular Ordered Parton Shower (AOPS) to lepton and hadron collision data, resulting in the Les Houches Tune (LH Tune), which shows good performance across a wide range of observables. The LH Tune will be included in the Herwig 7.4 release. This development enables a direct comparative study of the two hadronization models within Herwig, both interfaced with the Angular Ordered Parton Shower, which serves as the main motivation behind this work.
format Preprint
id arxiv_https___arxiv_org_abs_2509_02348
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Herwig 7 with the Lund String Model: Tuning and Comparative Hadronization Studies
Divisova, Michaela
Myska, Miroslav
Sarmah, Pratixan
Siódmok, Andrzej
High Energy Physics - Phenomenology
High Energy Physics - Experiment
The modelling of the formation of colour-singlet hadrons from coloured partons, known as Hadronization, is crucial for generating realistic events in Monte Carlo Event Generators. Due to limited understanding of the non-perturbative regime, physically motivated phenomenological hadronization models with tunable parameters are used and later tuned to the experimental data. Modern Monte Carlo generators primarily employ one of two hadronization models: the Lund string model, which is the default in Pythia, and the cluster model, which is the default in Herwig and Sherpa. In this work, we combine the Lund string hadronization model, as implemented in Pythia 8, with Herwig 7 using TheP8I interface. We tune the string model with Herwig 7's Angular Ordered Parton Shower (AOPS) to lepton and hadron collision data, resulting in the Les Houches Tune (LH Tune), which shows good performance across a wide range of observables. The LH Tune will be included in the Herwig 7.4 release. This development enables a direct comparative study of the two hadronization models within Herwig, both interfaced with the Angular Ordered Parton Shower, which serves as the main motivation behind this work.
title Herwig 7 with the Lund String Model: Tuning and Comparative Hadronization Studies
topic High Energy Physics - Phenomenology
High Energy Physics - Experiment
url https://arxiv.org/abs/2509.02348