A look at multiparticle production via modified combinants

As shown recently, one can obtain additional information from the measured charged particle multiplicity distributions, \(P(N)\), by investigating the so-called modified combinants, \(C_j\), extracted from them. This information is encoded in the observed specific oscillatory behaviour of \(C_j\), w...

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Published in:arXiv.org 2020-04
Main Authors: Ang, H W, Chan, A H, Ghaffar, M, Rybczyński, M, Wilk, G, Włodarczyk, Z
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Language:English
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Binomial distribution
Branching (mathematics)
Charged particles
Markov processes
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Chan, A H
Ghaffar, M
Rybczyński, M
Wilk, G
Włodarczyk, Z
description As shown recently, one can obtain additional information from the measured charged particle multiplicity distributions, \(P(N)\), by investigating the so-called modified combinants, \(C_j\), extracted from them. This information is encoded in the observed specific oscillatory behaviour of \(C_j\), which phenomenologically can be described only by some combinations of compound distributions based on the Binomial Distribution. So far this idea has been checked in \(pp\) and \(e^+e^-\) processes (where observed oscillations are spectacularly strong). In this paper, we continue observation of multiparticle production from the modified combinants perspective by investigating dependencies of the observed oscillatory patterns on type of colliding particles, their energies and the phase space where they are observed. We also offer some tentative explanations based on different types of compound distributions and stochastic branching processes.
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subjects Binomial distribution
Branching (mathematics)
Charged particles
Markov processes
title A look at multiparticle production via modified combinants
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