R.M. Drisko scite author profile

The reaction Ca 4O 0,£)Ca 41 has been studied at deuteron energies of 7.0, 8.0, 9.0,10.0,11.0, and 12.0 MeV. Absolute differential cross sections for the four most prominent proton groups were measured and are compared with predictions based on the distorted-wave Born approximation (DWBA). Particular emphasis is placed on the ability of this approach to extract precise spectroscopic factors, which for this reaction are expected to be known a priori. Effects of variation of optical parameters, and of inclusion of spin-orbit and finite-range effects, are discussed in detail. It can be concluded that, if one uses optical potentials which fit elastic-scattering data, spectroscopic factors can be extracted with an accuracy of 20% or better. 4 Y.

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Analysis of the Inelastic Scattering of Alpha Particles. I

Bassel

et al. 1962

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Optical-Model Analysis of "Quasielastic" (p, n) Reactions

1964

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Measured differential cross sections for (p,n) transitions between isobaric analog states are compared with the predictions of an optical model which includes an isobaric spin-dependent potential proportional to t-T 0 , where t and To are the isobaric spins of projectile and target, respectively. The magnitudes of the measured cross sections indicate a strength for this potential which is close to the symmetry potential found from analysis of elastic proton scattering. The shapes of the angular distributions give strong evidence for the radial shape of this potential to be peaked at the nuclear surface. The calculations are made in the distortedwave Born approximation using optical potential parameters determined by fits to elastic scattering. Numerical studies are made of the sensitivity of the predictions to various parameter changes to determine the significance of the fits obtained to experiment. Finally, some discussion is given of the "quasi-inelastic" transitions to excited isobaric states, in terms of the collective-model description of inelastic scattering.

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Theory of Finite-Range Distorted-Waves Calculations

et al. 1964

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Spin and Polarization Effects in the Annihilation of Triplet Positronium

Drisko¹

1956

Phys. Rev.

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R.M. Drisko

Ca40(d, p)Ca41, a Test of the Validity of the

Analysis of the Inelastic Scattering of Alpha Particles. I

Optical-Model Analysis of "Quasielastic" (p, n) Reactions

Theory of Finite-Range Distorted-Waves Calculations

Spin and Polarization Effects in the Annihilation of Triplet Positronium

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