A Consistent Meson-Field-Theoretical Description of PP-Bremsstrahlung
Abstract
A parameter-free and relativistic extension of the RuhrPot meson-baryon model is used to define the dominant isoscalar meson-exchange currents. We compute pp-bremsstrahlung observables below the π-production threshold using a relativistic hadronic current density that includes impulse, wave function re-orthonormalization, meson-recoil, NN creation and annihilation, πγ + ωπγ + ηγ + ωηγ vector-meson decay and Nγ(π,) exchange currents. We obtain a good description of the available data. The Nγ(π) current is shown to dominate the large two-body contributions and closed-form expressions for various non-relativistic approximations are analyzed. An experimental sensitivity to the admixture of pseudo-scalar and pseudo-vector admixture of the NNπ interaction is demonstrated. We examine the Lorentz invariance of the NN t-matrices and show a dominantly pseudo-vector NNπ coupling renders impulse approximation calculations without boost operators to be essentially exact. Conversely, a similar analysis of the N transitions shows that boost operators and the two-body Nγ wave function re-orthonormalization meson-recoil currents are required in NN, and coupled channel t-matrix applications. The need for additional data is stressed.
Turn this paper into a full lesson
ArcXiv compiles a staged curriculum from this paper: 8-12 lessons across beginner → advanced, synthesised section guides, visuals, flashcards, a quiz, exercises, and on-demand deep dives per section. Grounded in the abstract, never invented.