Structure Functions and Final-State Properties in Deeply Inelastic electron-proton Scattering

Hamid Kharraziha

    Research output: ThesisDoctoral Thesis (compilation)

    Abstract

    In this thesis, we give a description of the detailed structure of the proton and a description of the final-state properties in electron-proton scattering. Qualitative results, in a purely gluonic scenario with the leading log approximation, and quantitative results, where quarks are included and some sub-leading corrections have been made, are presented. The quantitative results are in fair agreement with available experimental data and a Monte Carlo event generator for electron-proton scattering is presented.

    Further, a computer program for calculating QCD colour factors is presented.
    Original languageEnglish
    QualificationDoctor
    Awarding Institution
    Supervisors/Advisors
    • [unknown], [unknown], Supervisor, External person
    Award date1998 Jan 23
    Publisher
    ISBN (Print)91-628-2826-6
    Publication statusPublished - 1997

    Bibliographical note

    Defence details

    Date: 1998-01-23
    Time: 10:15
    Place: Auditorium of the Department of Theoretical Physics

    External reviewer(s)

    Name: Dokshitzer, Yuri
    Title: Prof.
    Affiliation: INFN Milano, Italy

    ---

    Subject classification (UKÄ)

    • Subatomic Physics

    Free keywords

    • cosmic rays
    • event generators
    • colour factors
    • High energy interactions
    • hadronic jets
    • QCD
    • the Linked Dipole Chain model
    • quantum mechanics
    • relativity
    • gravitation
    • statistical physics
    • thermodynamics
    • Matematisk och allmän teoretisk fysik
    • kvantmekanik
    • klassisk mekanik
    • Kosmisk strålning
    • högenergi
    • classical mechanics
    • Mathematical and general theoretical physics
    • relativitet
    • statistisk fysik
    • termodynamik
    • Fysicumarkivet A:1997:Kharraziha

    Fingerprint

    Dive into the research topics of 'Structure Functions and Final-State Properties in Deeply Inelastic electron-proton Scattering'. Together they form a unique fingerprint.

    Cite this