Analysis of (d,n) reactions via the Dirac DWBA with finite range
Abstract
The Distorted-wave Born Approximation (DWBA) is used to calculate differential cross sections of low-energy deuteron stripping reactions. The implementation makes use of Dirac phenomenological potentials with an exact treatment of finite-range effects. The mutual interaction of these effects upon the resulting calculations will be presented. In addition, we use our finite-range implementation to study the effect on the cross sections due to the model dependence of the internal deuteron wave function. Specifically, we examine this effect using the internal deuteron wave functions generated with the Reid soft-core, Bonn, and Argonne-V18 potentials.
- Publication:
-
APS Division of Nuclear Physics Meeting Abstracts
- Pub Date:
- October 2004
- Bibcode:
- 2004APS..DNP.JC014H