Two-nucleon spectral function ofat high momenta
- 1 September 1996
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review C
- Vol. 54 (3) , 1144-1157
- https://doi.org/10.1103/physrevc.54.1144
Abstract
A procedure for the calculation of the two-body spectral function of a finite nucleus is presented. This spectral function is used to calculate the longitudinal part of the (e,pp) cross section assuming plane waves for the outgoing nucleons. Short-range correlation effects are included in the pair-removal amplitudes by adding corresponding defect wave functions that are obtained from the solution of the Bethe-Goldstone equation in the finite nucleus. The associated G matrix is used as the effective interaction in a large but finite model space to calculate the pair-removal amplitudes in a random-phase approach. The resulting spectral functions exhibit clear differences between different realistic interactions in the momentum range 2–5 for the initial proton momenta. © 1996 The American Physical Society.
Keywords
This publication has 45 references indexed in Scilit:
- Momentum and energy distributions of nucleons in finite nuclei due to short-range correlationsPhysical Review C, 1995
- Short-Range Nucleon-Nucleon Correlations Investigated with the ReactionPhysical Review Letters, 1995
- Charge exchange in final-state interactions of (e,e′ pp) reactionsNuclear Physics A, 1995
- High-momentum components in the 1p orbitals of 16OPhysics Letters B, 1995
- High-Momentum Protons inPhysical Review Letters, 1994
- One- and two-nucleon knockout in electron scatteringNuclear Physics A, 1994
- Single-particle spectral function ofPhysical Review C, 1994
- Two-proton emission induced by real and virtual photonsNuclear Physics A, 1992
- Two-proton emission induced by electron scatteringNuclear Physics A, 1991
- On the determination of the nuclear pair correlation function from the high energy photo-effectNuclear Physics, 1958