Introduction to the Strong Interactions |
Contents
INTRODUCTION | 1 |
THE ROTATION GROUP | 19 |
THE ISOSPIN GROUP SU2 | 34 |
Copyright | |
18 other sections not shown
Common terms and phrases
Ag(E ag(k analytic function angular momentum antiparticle antisymmetric assume asymptotic baryons behavior bound branch points Chapter Clebsch-Gordan coefficients commutation relations complex conserved consider contour contribution corresponding coupling constants crossed channel crossing symmetry decay decuplet defined describe diagonal differential cross section dispersion relation eigenstates eigenvalue elastic scattering energy equation equivalent example exchange experimental Fo(k given hadrons ImF(s implies integral irreducible representations isospin j₁ labeled leads left-hand cut mass matrix element mesons nucleon obtained octet operator parity partial wave amplitude particles physical region pion pion-nucleon plane polarization pole term Pomeranchuk potential theory proton quantum numbers quarks reaction Regge cut Regge pole Regge theory Regge trajectories relativistic residue resonances result s-channel scattering amplitude scattering process shown signature singlet singularities spin strong interactions theorem threshold tion total cross section transformation unitarity values vanish variables vector wave function write yields βα