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.
Experimental evidence is presented that the angular distribution of the (d,p) reaction depends not only on the orbital angular momentum / but also on the total angular-momentum transfer J = l±h For 1 = 1, marked differences appear between J = \ and f at angles greater than 90° in medium-weight nuclei. Lesser differences also appear for 1 = 2 and 1 = 3 transitions at back angles. A marked dependence on / is also observed for 1 = 2 transitions at forward angles. The experimental evidence for such effects is presented.
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