Intermittency Approach in the Nuclear Collisions of 28Si + AgBr at 14.6A GeV - Nuclear Emulsion Experiment a Particle Detector

Authors

  • Mohammad Ayaz Ahmad Physics Department, Faculty of Science, P.O. Box 741, University of Tabuk, Saudi Arabia

DOI:

https://doi.org/10.26417/ejis.v3i2.p127-133

Keywords:

multiplicity fluctuation;, UrQMD simulation technique; scaled factorial moemnts component; charged particle production

Abstract

A new method has been applied for the study of intermittency in the collisions of 28Si + AgBr at 14.6 A GeV for the produced relativistic charged particles by using the method of mixed factorial moment (MFM). In this paper an analysis has been made for the presence of fractal behavior with three different approaches of Scaled factorial Moments (SFMs) named as- horizontal, vertical and mixed (horizontal and vertical together). The non-statistical fluctuations of relativistic charged particles have been calculated on events with different degree of centrality. These results have been compared with the results of simulated data obtained from UrQMD model and we find a good agreement between experimental data and simulated data.

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Published

2017-01-21

How to Cite

Ahmad, M. A. (2017). Intermittency Approach in the Nuclear Collisions of 28Si + AgBr at 14.6A GeV - Nuclear Emulsion Experiment a Particle Detector. European Journal of Interdisciplinary Studies, 3(2), 115–132. https://doi.org/10.26417/ejis.v3i2.p127-133