Formation of relativistic non-viscous fluid in central collisions of protons with energy 0.8 TeV with photoemulsion nuclei

TL;DR

This paper investigates whether relativistic, non-viscous fluid behavior occurs in proton-emulsion nucleus collisions at 0.8 TeV, using statistical methods to analyze experimental data and support hydrodynamical models of quark-gluon plasma formation.

Contribution

It provides evidence supporting the formation of relativistic ideal non-viscous fluid in central proton-nucleus collisions at high energy.

Findings

Results do not contradict formation of relativistic ideal non-viscous fluid.

Supports hydrodynamical approach to quark-gluon plasma.

Uses statistical analysis of experimental collision data.

Abstract

By the methods of mathematical statistics we test a qualitative prediction of the old theory of relativistic hydrodynamics non-viscous liquid which can be used as a part of the process of hadronization within the modern hydrodynamical approach for the description of the quark-gluon plasma. Experimental data on the interaction of protons with the energies of 0.8 TeV with emulsion nuclei are used. Results do not contradict the formation of relativistic ideal non-viscous liquid in rare central collisions.