Widths of Isobaric Analog Resonances: a microscopic approach

A.M. Lane; A.Z. Mekjian; C.A. Engelbrecht; E.M. Henley; G. Colò; G. Colò; H. Sagawa; H. Sagawa; M. Beiner; N. Auerbach; N. Auerbach; N. Auerbach; N. Van Giai; N. Van Giai; P. F. Bortignon; S. Adachi; T. Suzuki; T. Suzuki; T. Suzuki

research

Widths of Isobaric Analog Resonances: a microscopic approach

Authors: A.M. Lane
A.Z. Mekjian
C.A. Engelbrecht
E.M. Henley
G. Colò
G. Colò
H. Sagawa
H. Sagawa
M. Beiner
N. Auerbach
N. Auerbach
N. Auerbach
N. Van Giai
N. Van Giai
P. F. Bortignon
S. Adachi
T. Suzuki
T. Suzuki
T. Suzuki
Publication date: 1 January 1998
Publisher: 'American Physical Society (APS)'
Doi

Abstract

A self-consistent particle-phonon coupling model is used to investigate the properties of the isobaric analog resonance in

^{208}

Bi. It is shown that quantitative agreement with experimental data for the energy and the width can be obtained if the effects of isospin-breaking nuclear forces are included, in addition to the Coulomb force effects. A connection between microscopic model predictions and doorway state approaches which make use of the isovector monopole resonance, is established via a phenomenological ansatz for the optical potential.Comment: 18 pages, 1 figure. To appear on Phys. Rev. C (tentatively scheduled for June 1998