On asimuthal anisotropy in fragmentation of classical relativistic string

TL;DR

This paper investigates how the transverse separation of a relativistic string's ends influences azimuthal anisotropy in particle production, offering insights into angular distributions in high-energy hadron interactions.

Contribution

It introduces a novel scenario of string fragmentation with non-zero transverse separation to explain azimuthal anisotropy in particle production.

Findings

Transverse separation affects azimuthal angle distribution.

Proposes a mechanism for anisotropy in relativistic string fragmentation.

Provides a potential explanation for observed angular asymmetries.

Abstract

A fragmenting relativistic string is widely used for modelling particle production via quark-gluon strings formed in hadron inelastic interactions of high energies. In this note we focus on motion and fragmentation of relativistic string with non-zero transverse separation of its ends and study this scenario as a possible mechanism bringing anisotropy into the asimuthal angle disribution of produced particles in inelastic interactions of hadrons.