Multiplicity distribution of charged particles in e+ e– annihilation in 54-57 GeV centre of mass energy and KNO scaling

Multiplicity distribution of charged particles in e+ e– annihilation in 54-57 GeV centre of mass energy and KNO scaling

In this paper, we investigate the multiplicity of charged particles in e+ e– annihilation by using different models. To achieve this we first fit the multiplicity distribution of charged particles in the energy range of 54-57 GeV by using both the Poisson distribution and KNO scaling, then we compar...

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Main Authors: A Ghasempoor Nashli, A Sepehri, T Gaffary, ME Zomorrodian
Format: Article
Language:English
Published: Isfahan University of Technology 2009-09-01
Series:Iranian Journal of Physics Research
Subjects:
e+ e– annihilations
multiplicity
KNO scaling
Fermi model
Online Access:http://ijpr.iut.ac.ir/browse.php?a_code=A-10-1-416&slc_lang=en&sid=1
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spelling doaj-f479b57736a04ce79bf4820d712586052020-11-24T21:25:56ZengIsfahan University of TechnologyIranian Journal of Physics Research1682-69572009-09-0192203207Multiplicity distribution of charged particles in e+ e– annihilation in 54-57 GeV centre of mass energy and KNO scalingA Ghasempoor NashliA SepehriT GaffaryME ZomorrodianIn this paper, we investigate the multiplicity of charged particles in e+ e– annihilation by using different models. To achieve this we first fit the multiplicity distribution of charged particles in the energy range of 54-57 GeV by using both the Poisson distribution and KNO scaling, then we compare these results with multiplicity distribution at the lower energies. This comparison shows that our results are more compatible with KNO scaling in this energy range. Also we fit the multiplicity distribution of our data, together with the other data up to 206 GeV, to Fermi model, the pp data model and the model obtained from perturbative QCD. The coefficients obtained by these methods are consistent with those obtained at lower energies.http://ijpr.iut.ac.ir/browse.php?a_code=A-10-1-416&slc_lang=en&sid=1e+ e– annihilationsmultiplicityKNO scalingFermi model
collection DOAJ
language English
format Article
sources DOAJ
author A Ghasempoor Nashli
A Sepehri
T Gaffary
ME Zomorrodian
spellingShingle A Ghasempoor Nashli
A Sepehri
T Gaffary
ME Zomorrodian
Multiplicity distribution of charged particles in e+ e– annihilation in 54-57 GeV centre of mass energy and KNO scaling
Iranian Journal of Physics Research
e+ e– annihilations
multiplicity
KNO scaling
Fermi model
author_facet A Ghasempoor Nashli
A Sepehri
T Gaffary
ME Zomorrodian
author_sort A Ghasempoor Nashli
title Multiplicity distribution of charged particles in e+ e– annihilation in 54-57 GeV centre of mass energy and KNO scaling
title_short Multiplicity distribution of charged particles in e+ e– annihilation in 54-57 GeV centre of mass energy and KNO scaling
title_full Multiplicity distribution of charged particles in e+ e– annihilation in 54-57 GeV centre of mass energy and KNO scaling
title_fullStr Multiplicity distribution of charged particles in e+ e– annihilation in 54-57 GeV centre of mass energy and KNO scaling
title_full_unstemmed Multiplicity distribution of charged particles in e+ e– annihilation in 54-57 GeV centre of mass energy and KNO scaling
title_sort multiplicity distribution of charged particles in e+ e– annihilation in 54-57 gev centre of mass energy and kno scaling
publisher Isfahan University of Technology
series Iranian Journal of Physics Research
issn 1682-6957
publishDate 2009-09-01
description In this paper, we investigate the multiplicity of charged particles in e+ e– annihilation by using different models. To achieve this we first fit the multiplicity distribution of charged particles in the energy range of 54-57 GeV by using both the Poisson distribution and KNO scaling, then we compare these results with multiplicity distribution at the lower energies. This comparison shows that our results are more compatible with KNO scaling in this energy range. Also we fit the multiplicity distribution of our data, together with the other data up to 206 GeV, to Fermi model, the pp data model and the model obtained from perturbative QCD. The coefficients obtained by these methods are consistent with those obtained at lower energies.
topic e+ e– annihilations
multiplicity
KNO scaling
Fermi model
url http://ijpr.iut.ac.ir/browse.php?a_code=A-10-1-416&slc_lang=en&sid=1
work_keys_str_mv AT aghasempoornashli multiplicitydistributionofchargedparticlesineeannihilationin5457gevcentreofmassenergyandknoscaling
AT asepehri multiplicitydistributionofchargedparticlesineeannihilationin5457gevcentreofmassenergyandknoscaling
AT tgaffary multiplicitydistributionofchargedparticlesineeannihilationin5457gevcentreofmassenergyandknoscaling
AT mezomorrodian multiplicitydistributionofchargedparticlesineeannihilationin5457gevcentreofmassenergyandknoscaling
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