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Energy dependence of the relativistic impulse approximation for proton-nucleus elastic scattering
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Citations
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References
1983
Year
EngineeringNuclear PhysicsHadron PhysicNuclear DataRelativistic Impulse ApproximationElastic Scattering ObservablesLepton-nucleon ScatteringHigh-energy Nuclear ReactionPhysicsInvariant Nucleon-nucleon AmplitudesProton-nucleus Elastic ScatteringNuclear TheoryNucleon-nucleus Elastic ScatteringExperimental Nuclear PhysicsNatural SciencesParticle PhysicsWave ScatteringApplied PhysicsHigh-frequency ApproximationEnergy DependenceNeutron Scattering
Results of relativistic and nonrelativistic impulse approximation calculations are compared for p+$^{40}\mathrm{Ca}$ elastic scattering observables between 181 and 1040 MeV. At 400 MeV and above, the relativistic approach is superior, especially with regard to spin observables. Below 400 MeV, neither calculation agrees well with experiment.NUCLEAR REACTIONS Energy dependence of the relativistic impulse approximation, Dirac phenomenology, invariant nucleon-nucleon amplitudes, nucleon-nucleus elastic scattering, ${E}_{\mathrm{p}}=181\ensuremath{-}1040$ MeV.
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