TL;DR
This paper reviews recent advances in amplitude and colour evolution techniques, emphasizing their role in enhancing parton shower algorithms through interference effects and subleading colour contributions, with a focus on soft gluon evolution and the CVolver framework.
Contribution
It summarizes recent developments in amplitude and colour evolution, highlighting their importance in improving parton shower models and including complex quantum effects.
Findings
Enhanced parton shower algorithms with interference effects
Inclusion of subleading colour contributions
Development of the CVolver framework
Abstract
Colour evolution and parton branching at the amplitude level have become important theoretical frameworks to improve parton showers, and are algorithms in their own right: they complement shower development by resummation algorithms capable of including interference effects and subleading colour contributions at an unprecedented level. I summarize recent development in the field, focusing on soft gluon evolution, hadronization, and the CVolver framework.
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Taxonomy
TopicsParticle physics theoretical and experimental studies · High-Energy Particle Collisions Research · Computational Physics and Python Applications