Analysis of Multiplicity Distributions by Means of Pure Birth Process with Poisson Process : Particles and Fields

スポンサーリンク

概要

• 論文の詳細を見る

• In order to describe multiplicity distribution in high-energy hadronic collisions, a two-component stochastic branching equation, i.e., a pure birth process with a Poisson process is considered. It is assumed that the pure birth process and the Poisson one describe the multiplicity distributions in the central and fragmentation regions, respectively. Better results for C_q =<n^q>/<n^>^q moments in high energy collisions are obtained, provided that the number of the "excited hadrons" at the initial stage is constant irrespective of the incident energy √<s>. A KNO scaling function in the two-component model is also derived and applied to data. Experimental tests of our model at the ISR, the Sp^^-pS Collider and the Tevatron are proposed.

• 理論物理学刊行会の論文
• 1992-08-25

著者

• MIZOGUCHI Takuya

  Toba National College of Maritime Technology

• SUZUKI Naomichi

  Matsumoto University

• Biyajima Minoru

  Department Of Physics Shinshu University

• Suzuki N

  Department Of Comprehensive Management Matsumoto Univ.

• Suzuki Naomichi

  Mtsusho Gakuen Junior College

• Biyajima M

  Department Of Physics Shinshu Univ.

• MIZOGUCHI Takuya

  Department of Physics, Shinshu University

• MIZOGUCH Takuya

  Toba National College of Maritime Technology

• Biyajima Minoru

  Departmemt Of Physics Faculty Of Liberal Arts Shinshu University

• AOKI Toshimoto

  Department of Physics, Faculty of Science, Shinshu University

• Aoki Toshimoto

  Department Of Physics Faculty Of Science Shinshu University

• SUZUKI Naomichi

  Department of Comprehensive Management, Matsumoto Univ.

• BIYAJIMA Minoru

  Department of Physics, Shinshu Univ.

• BIYAJIMA Minoru

  Department of Physics, Faculty of Liberal Arts Shinshu University

• BIYAJIMA Minoru

  Department of Physics, Shinshu University : Niels Bohr Institute

関連論文

• Scaling Behavior of (N_
• Analysis of Leading Proton Spectrum in High Energy Proton-Nucleus Collisions
• Description of η-Distributions at RHIC Energies in Terms of a Stochastic Model (Poster contributions)
• Scaling Behavior of (N_)^dN_/dη at √=130 GeV by the PHOBOS Collaboration and Its Implication : A Possible Explanation Employing the Ornstein-Uhlenbeck Process
• Proper-Time Formulation of the Dual Resonance Model and Subsidiary Conditions. II
• Proper-Time Formulation in Dual Resonance Model and the Subsidiary Conditions
• An Explanation of Helicity Conservation from the Quark Model and Tensor Coupling
• Regge Pole Model with the Diffractive Correction. IV : The Pion Photoproduction
• Precise Test of the Standard Model in e^-e^+ Annihilation at TRISTAN Energy √=60 GeV : Energy Distributions of Final Leptons : Particles and Fields
• Bose-Einstein Correlations of K-Mesons and Their Production Mechanism in S+Pb Reactions
• An Explanation for Drell Ratio R5.5. II
• Higher Order Bose-Einstein Correlations in Identical Particle Production
• Higher Order Bose-Einstein Correlations in Identical Particle Production : Particles and Fields
• Detection of Light Standard Higgs Particle in e^+e^- Annihilation : Particles and Fields
• η-Scaling of dN_/dη at √ = 200 GeV by the PHOBOS Collaboration and the Ornstein-Uhlenbeck Stochastic Process
• Origin of Prolate Dominance of Nuclear Deformation
• Origin of Prolate Dominance of Nuclear Deformation
• A TWO-COMPONENT MODEL FOR HIGH ENERGY COLLISION : PURE BIRTH PROCESS AND POISSON PROCESS
• Bose-Einstein Correlations and Source Functions : Particles and Fields
• Bose-Einstein Correlations and Source Functions
• Study of Rapidity Spacings
• Wavelet Spectra of JACEE Events : Nuclear Physics
• Fractal Dimension in JACEE Events : Particles and Fields
• Analyses of Multiplicity Distributions by Means of the Modified Negative Binomial Distribution and Its KNO Scaling Function : Particles and Fields
• KNO scaling function of modified negative binomial distribution
• Solutions of the Differential-Difference Equation of the Perina and McGill Formula and Their Interrelations : Role of Coherent Component in Hadronic Collisions : Particles and Fields
• Generalization of Sato's Duality Sum Rule and Test of Semi-Local Duality Picture in Inclusive e^+e^- Annihilation Process
• Analyses of the Inclusive Distributions p+p→π^±X and K^±X on the Basis of the Kuti-Weisskopf Quark-Parton Model
• Meson Productions at Large Transverse Momentum in Core-Valence Parton Model
• Single Particle Distribution by Virtual Photon
• Generalization of the Glauber-Lachs Formula, Charged Particle Distributions and the KNO Scaling at pp^^- Collider
• Helicity Conservation in the Photo- and Vector-Meson-Reactions. II : Density Spin Matrix in γp→ρ^0p Reaction
• Fractal Dimension in High Energy Nucleus-Nucleus Collisions : Particles and Fields
• Resolution of the Rapid Energy Dependence of pp-Polarization
• Hierarchy in Identical Pion Correlation Functions and Hybrid Approach to Dual Topological Expanded Sheets
• Higher Order Bose-Einstein Correlation Functions of Identical Particles
• Bose-Einstein Correlations and Source Functions. II : Analyses of Data in S+Pb Reaction at 200 GeV/c : Nuclear Physics
• Physical Meaning of the Parameter of the Degree of Coherence in the Modified Kopylov-Podgoretsky-Cocconi Formulae : A Number of Jets versus an Adjustable Parameter
• Helicity Conservation in πN→A_1N Scattering
• Regge Pole Model with the Diffractive Correction. II : pn and pp^^- Charge Exchange Scattering
• Regge Pole Model with the Diffractive Correction. I : The Charged Pion Photoproduction
• An Explanation for Drell Ratio R5.5. I : Charged Energy Fraction and the Second Heavy Lepton
• Helicity Conservation in the Photo- and Vector-Meson-Reactions. I
• Production Mechanism of Pion and Kaon in S+Pb Reaction at 200 GeV/c
• Inclusive Three Negative Pion Correlation Functions in the Central Region and Mueller Scheme with the Bose-Einstein Statistics
• On the Residue of J=0 Fixed Pole and Regge Residues in Deep Inelastic e-p Scattering
• One-Loop Diagrams of the Dual-Resonance Model in the Proper-Time Formulation
• Classical Boson Wave Excitation Model and Multiplicity Distribution in High-Energy Hadron Collisions
• Analysis of Bose-Einstein correlations in e⁺e⁻→W⁺W⁻ events including final state interactions
• Massive μ-Pair Production in the Dual-Resonance Model
• 24aZA-6 Relativistic Diffusion Model analysis of d+Au collisions
• Analysis of Multiplicity Distributions by Means of Pure Birth Process with Poisson Process : Particles and Fields
• Regge Pole Model with the Diffractive Correction. III : Diffractive Regge Pole Model and Conspiracy Relation
• Cluster Cascade Model for High Energy Hadron-Nucleus Collisions
• Space-Time Approach to the Lattice Dual Resonance Model
• Diffractive Regge Pole Model and Conspiracy Relation
• Deep Inelastic e-p Scattering and Single Particle Distributions Initiated by the Virtual Photon in the Lattice Dual Resonance Model : Hamiltonian Formalism
• Identical Particle Effect and Symmetrization in Mueller Amplitude
• Lagrangian Formulation of Dual Resonance Model
• Violation of Bjorken Scaling,Fraction of Momentum Fluctuation and Range of Timelike Photon in e+e-→h±x Reaction
• Two Particle Correlation in the Cluster Cascade Model(Hadron-Nucleus Collisions,Proceedings of the Multiparticle Dynamics)
• Note on the Gray Prong Distribution in High Energy Hadron-Nucleus Collisions

もっと見る 閉じる

スポンサーリンク