Directed flow as effect of transient matter rotation in hadron and   nucleus collisions

S.M. Troshin; N.E. Tyurin

arXiv:0709.4090·hep-ph·November 26, 2008

Directed flow as effect of transient matter rotation in hadron and nucleus collisions

S.M. Troshin, N.E. Tyurin

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TL;DR

This paper explores how the rotation of transient matter in hadron and nucleus collisions influences directed flow, providing insights into the dynamics of such high-energy interactions.

Contribution

It introduces the concept of transient matter rotation affecting directed flow in both hadronic and nuclear collisions, expanding current understanding.

Findings

01

Rotation of transient matter impacts directed flow patterns.

02

The behavior of directed flow varies with collision type and energy.

03

Provides a theoretical framework for analyzing flow effects.

Abstract

We discuss directed flow introduced for description of nucleus collisions and consider its possible behavior in hadronic and nuclei reactions due to rotation of the transient matter.

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