Proceedings of the LAMPF Workshop on Dirac Approaches to Nuclear PhysicsJ. R. Shepard, C. Y. Cheung, Richard L. Boudrie |
Contents
THE ROLE OF EXPERIMENT IN THE DEVELOPMENT OF THE RELATIVISTIC IMPULSE | 28 |
CRITIQUE OF RELATIVISTIC NUCLEAR MODELS J W Negele | 73 |
DEVELOPMENT OF THE RELATIVISTIC IMPULSE APPROXIMATION | 87 |
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Common terms and phrases
analyzing power data approach baryon baryon density calculations coefficients composite currents contribution convection diagrams differential cross section Dirac equation Dirac spinors DRIA effects elastic scattering exchange excitation field theory Figure gluons interaction invariant isospin J. A. McNeil J. R. Shepard LAMPF Lett Love-Franey lower components many-body Mass Angle deg matrix elements mb/sr measurements meson negative energy NN amplitudes nonrelativistic NRIA Nucl nuclear matter nuclear physics nuclear structure nucleon nucleon-nucleon nucleus obtained off-shell optical potential parameters particle Pauli phase shift phenomenological Phys pion polarimeter polarization transfer predictions projectile propagator proton proton-nucleus pseudoscalar pseudovector quantum hadrodynamics quark relativistic Hartree relativistic impulse approximation S-matrix S. J. Wallace scalar and vector Schrödinger Schrödinger equation section and analyzing Serot shown in Fig solid curve spin-orbit spin-rotation spinors t-matrix target tensor transition densities unnatural parity wave functions wavefunction