Coupled-channel calculation of nonelastic cross sections using a density-functional structure model

Coupled-channel calculation of nonelastic cross sections using a density-functional structure model

A microscopic calculation of reaction cross sections for nucleon-nucleus scattering was performed by coupling the elastic channel to all particle-hole excitations in the target and one-nucleon pickup channels. The particle-hole states may be regarded as doorway states through which the flux flows to...

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Veröffentlicht in:Physical review letters 2010-11, Vol.105 (20), p.202502-202502, Article 202502
Hauptverfasser: Nobre, G P A, Dietrich, F S, Escher, J E, Thompson, I J, Dupuis, M, Terasaki, J, Engel, J
Format: Artikel
Sprache:eng
Schlagworte:
ABSORPTION
ALKALINE EARTH ISOTOPES
ATOMIC AND MOLECULAR PHYSICS
BARYON-BARYON INTERACTIONS
CALCIUM 48
CALCIUM ISOTOPES
CALCULATION METHODS
COMPOUND NUCLEI
COUPLED CHANNEL THEORY
CROSS SECTIONS
DATA
DENSITY FUNCTIONAL METHOD
ELASTIC SCATTERING
Elasticity
ENERGY RANGE
ENERGY-LEVEL TRANSITIONS
EVEN-EVEN NUCLEI
EXCITATION
EXPERIMENTAL DATA
HADRON-HADRON INTERACTIONS
INELASTIC SCATTERING
INFORMATION
INTERACTIONS
INTERMEDIATE MASS NUCLEI
ISOMERIC TRANSITION ISOTOPES
ISOTOPES
MATHEMATICAL MODELS
MEV RANGE
MILLISECONDS LIVING RADIOISOTOPES
Models, Molecular
NICKEL 58
NICKEL ISOTOPES
NUCLEAR MODELS
NUCLEAR PHYSICS AND RADIATION PHYSICS
NUCLEI
NUCLEON-NUCLEON INTERACTIONS
NUCLEON-NUCLEON POTENTIAL
NUMERICAL DATA
PARTICLE INTERACTIONS
PARTICLE-HOLE MODEL
POTENTIALS
Quantum Theory
RADIOISOTOPES
RANDOMNESS
RARE EARTH NUCLEI
RESONANCE
SAMARIUM 144
SAMARIUM ISOTOPES
SCATTERING
SKYRME POTENTIAL
SORPTION
STABLE ISOTOPES
Thermodynamics
VARIATIONAL METHODS
ZIRCONIUM 90
ZIRCONIUM ISOTOPES
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Beschreibung
Zusammenfassung:A microscopic calculation of reaction cross sections for nucleon-nucleus scattering was performed by coupling the elastic channel to all particle-hole excitations in the target and one-nucleon pickup channels. The particle-hole states may be regarded as doorway states through which the flux flows to more complicated configurations, and subsequently to long-lived compound nucleus resonances. Target excitations for (40,48)Ca, 58Ni, 90Zr, and 144Sm were described in a random-phase framework using a Skyrme functional. Reaction cross sections obtained agreed very well with experimental data and predictions of a fitted optical potential. Couplings between inelastic states were found to be negligible, while the pickup channels contribute significantly. For the first time observed absorptions are completely accounted for by explicit channel coupling, for incident energies between 10 and 40 MeV.
ISSN:0031-9007
1079-7114
DOI:10.1103/PhysRevLett.105.202502