Coupled channels optical model potential for rare earth nuclei

M. Herman; G. P. A. Nobre; A. Palumbo; F. S. Dietrich; D. Brown; S. Hoblit

doi:10.1051/epjconf/20136900007

All issues

Volume 69 (2014)

EPJ Web of Conferences, 69 (2014) 00007

Abstract

Open Access

Issue		EPJ Web of Conferences Volume 69, 2014 CNR*13 - Fourth International Workshop on Compound Nuclear Reactions and Related Topics


Article Number		00007
Number of page(s)		8
DOI		https://doi.org/10.1051/epjconf/20136900007
Published online		01 April 2014

EPJ Web of Conferences 69, 00007 (2014)
https://doi.org/10.1051/epjconf/20136900007

Coupled channels optical model potential for rare earth nuclei

M. Herman¹^a, G. P. A. Nobre¹^b, A. Palumbo¹, F. S. Dietrich², D. Brown¹ and S. Hoblit¹

¹ National Nuclear Data Center, Brookhaven National Laboratory, Upton, NY 11973-5000, USA
² P.O. Box 30423, Walnut Creek, CA, 94598, USA

^a e-mail: mwherman@bnl.gov
^b e-mail: gnobre@bnl.gov

Published online: 1 April 2014

Abstract

The global spherical optical model by Koning and Delaroche is generalized to enable its use in coupled-channel calculations on well deformed nuclei in the rare-earth region. The generalization consists in adding the coupling of the ground state rotational band, deforming the potential by introducing appropriate quadrupole and hexadecupole deformations and correcting the optical model potential radius to preserve the volume integral of the spherical optical potential. We choose isotopes of three rare-earth elements (W, Ho, Gd), which are known to be nearly perfect rotors, to perform a consistency test of our conjecture on integrated cross sections as well as on angular distributions for elastic and inelastic neutron scattering. The only additional input are experimentally determined deformations, which we employ without any adjustments. The results are clearly superior compared to the spherical optical model calculations with dramatic improvement at low incident energies.

This is an Open Access article distributed under the terms of the Creative Commons Attribution License 2.0, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

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