2008
DOI: 10.1140/epjc/s10052-008-0750-z
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Lee-Yang circle analysis of e + e − and $p\overline{p}$ generalized multiplicity distribution

Abstract: We study the evolution of Lee-Yang zeros structure of generalized multiplicity distribution (GMD) in high energy collision. Starting our study with electron-positron e + e − scattering data, we extend the study by Chan and Chew (Z. Phys. C 55:503, 1992) on TASSO and AMY multiplicity data for √ s = 14, 22, 34.8, 43.6 and 57 GeV to the ones from DELPHI and OPAL Collaboration for √ s = 91, 133, 161, 172, 183 and 189 GeV. We compare the results with the Lee-Yang structure for proton-antiproton pp at √ s = 200, 546… Show more

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Cited by 11 publications
(13 citation statements)
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“…(8) and (9)), the values of energy dependence of the average charged multiplicity in e interactions, up to 206 GeV has been calculated to be n . When compared to other models, the value calculated is consistent with the evolution predicted by GMD method [21][22][23][24]. When s =206 GeV n =27.5, and so on for the lower energies.…”
Section: Resultssupporting
confidence: 83%
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“…(8) and (9)), the values of energy dependence of the average charged multiplicity in e interactions, up to 206 GeV has been calculated to be n . When compared to other models, the value calculated is consistent with the evolution predicted by GMD method [21][22][23][24]. When s =206 GeV n =27.5, and so on for the lower energies.…”
Section: Resultssupporting
confidence: 83%
“…3 gives the GMDH the proven ability of wide usage in the modeling of high energy physics. Figure 3 demonstrates the calculated charged multiplicity distribution at 14, 29,34.8, 43.6,...., 206 s G e V = which have been compared with the corresponding experimental and theoretical ones [21][22][23][24]. The comparison between the charged particle multiplicity distribution calculated by the generalized multiplicity distribution (GMD) model for [12][13][14][15][16][17][18][19][20] and theoretical [21][22][23][24] data especially at 183 and 206 GeV.…”
Section: Resultsmentioning
confidence: 99%
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“…In [15] we have used specific, QCD based, realization of such approach based on the stochastic branching equation (describing the total multiplicity distribution of partons inside a jet, [6]), P (n) dt = − An +Ãm P (n) + A(n − 1)P (n − 1) +ÃP (n − 1) = =Ãm[−P (n) + P (n − 1)] + A[−nP (n) + (n − 1)P (n − 1)], (B.2)…”
Section: Acknowledgmentmentioning
confidence: 99%