Parametrization for chemical freeze-out conditions from net-charge   fluctuations measured at RHIC

M. Bluhm (North Carolina State U.); P. Alba; W. Alberico (INFN; Turin; & Turin U.); R. Bellwied (Houston U.); V. Mantovani Sarti (INFN; Turin &; Turin U.); M. Nahrgang (Duke U.); C. Ratti (INFN; Turin & Turin U. & Houston; U.)

arXiv:1412.5934·hep-ph·June 11, 2015

Parametrization for chemical freeze-out conditions from net-charge fluctuations measured at RHIC

M. Bluhm (North Carolina State U.), P. Alba, W. Alberico (INFN, Turin, & Turin U.), R. Bellwied (Houston U.), V. Mantovani Sarti (INFN, Turin &, Turin U.), M. Nahrgang (Duke U.), C. Ratti (INFN, Turin & Turin U. & Houston, U.)

PDF

TL;DR

This paper presents a thermal model that extracts chemical freeze-out conditions from net-charge fluctuations measured at RHIC, providing a parametrization of these conditions across different beam energies.

Contribution

The paper introduces a specific parametrization of chemical freeze-out conditions based on net-charge fluctuation data from RHIC.

Findings

01

Parametrization accurately describes freeze-out conditions across beam energies.

02

Thermal model effectively relates fluctuations to chemical freeze-out parameters.

03

Provides a practical tool for analyzing heavy-ion collision data.

Abstract

We discuss details of our thermal model applied to extract chemical freeze-out conditions from fluctuations in the net-electric charge and net-proton number measured at RHIC. A parametrization for these conditions as a function of the beam energy is given.

Peer Reviews

No public reviews on file for this paper yet. If you reviewed it on a platform where reviews are public (OpenReview, ICLR, NeurIPS, ICML), you can paste yours below so the community can read it here.

Videos

No videos yet. Explain this paper in a talk, walkthrough, or lecture? Add one.