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Microscopic study of doorway states in the giant resonance region of O 16

Microscopic study of doorway states in the giant resonance region of O 16 Inelastic proton scattering to the non-normal parity 2 - (8.88 MeV) state in O 16 has been used as a means to study the applicability of the random-phase-approximation wave functions for the description of doorway states in the giant resonance region. The transition amplitudes are evaluated in a distorted-wave-approximation. The reaction mechanism is described in terms of a direct and a semidirect process, the latter involving the doorway states. The results of this investigation comprise the microscopic radial transition form factors and a differential cross section analysis for proton energies ranging from 24 to 40 MeV. NUCLEAR REACTIONS O 16 ( p , p ′ ) , E = 24 - 40 MeV; microscopic study of giant resonance region; uses RPA wave functions, DWA. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Physical Review C American Physical Society (APS)

Microscopic study of doorway states in the giant resonance region of O 16

Physical Review C , Volume 14 (4) – Oct 1, 1976
12 pages

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Publisher
American Physical Society (APS)
Copyright
Copyright © 1976 The American Physical Society
ISSN
1089-490X
DOI
10.1103/PhysRevC.14.1369
Publisher site
See Article on Publisher Site

Abstract

Inelastic proton scattering to the non-normal parity 2 - (8.88 MeV) state in O 16 has been used as a means to study the applicability of the random-phase-approximation wave functions for the description of doorway states in the giant resonance region. The transition amplitudes are evaluated in a distorted-wave-approximation. The reaction mechanism is described in terms of a direct and a semidirect process, the latter involving the doorway states. The results of this investigation comprise the microscopic radial transition form factors and a differential cross section analysis for proton energies ranging from 24 to 40 MeV. NUCLEAR REACTIONS O 16 ( p , p ′ ) , E = 24 - 40 MeV; microscopic study of giant resonance region; uses RPA wave functions, DWA.

Journal

Physical Review CAmerican Physical Society (APS)

Published: Oct 1, 1976

There are no references for this article.