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Resonating-group study of the He 3 ( H 3 )+ α systems: Bound states to 113 MeV

Resonating-group study of the He 3 ( H 3 )+ α systems: Bound states to 113 MeV An effective nucleon-nucleon spin-orbit force is included in a single-channel resonating-group calculation for the He 3 ( H 3 )+ α system up to a c.m. energy of 113.1 MeV. The parameters of the spin-orbit force were chosen to reproduce the phase shifts for p + α scattering at low energies and the bound-state properties of Li 7 and Be 7 . A phenomenological, parity-dependent imaginary potential is used to account for reaction channels. The calculation gives a reasonable account of the experimental differential cross sections and analyzing powers available in this energy region. NUCLEAR REACTIONS He 3 ( H 3 )+ α , bound states to 113.1 MeV (c.m.); calculated elastic differential cross sections and analyzing powers; resonating-group method. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Physical Review C American Physical Society (APS)

Resonating-group study of the He 3 ( H 3 )+ α systems: Bound states to 113 MeV

Furber, Robert D
Physical Review C , Volume 25 (1) – Jan 1, 1982
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Publisher
American Physical Society (APS)
Copyright
Copyright © 1982 The American Physical Society
ISSN
1089-490X
DOI
10.1103/PhysRevC.25.23
Publisher site
See Article on Publisher Site

Abstract

An effective nucleon-nucleon spin-orbit force is included in a single-channel resonating-group calculation for the He 3 ( H 3 )+ α system up to a c.m. energy of 113.1 MeV. The parameters of the spin-orbit force were chosen to reproduce the phase shifts for p + α scattering at low energies and the bound-state properties of Li 7 and Be 7 . A phenomenological, parity-dependent imaginary potential is used to account for reaction channels. The calculation gives a reasonable account of the experimental differential cross sections and analyzing powers available in this energy region. NUCLEAR REACTIONS He 3 ( H 3 )+ α , bound states to 113.1 MeV (c.m.); calculated elastic differential cross sections and analyzing powers; resonating-group method.

Journal

Physical Review CAmerican Physical Society (APS)

Published: Jan 1, 1982

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