S. Stamer scite author profile

Energy spectra of neutrons from the lO4, 105,106, lO8,110pd(p ' xn) reactions at E v = 26.1 MeV have been measured using the time-of-flight technique with good overall energy resolution (<250 keV). The hard part of angle-integrated spectra corresponding to low residual excitations (U<6MeV) exhibits pronounced structure varying from isotope to isotope. The observed structure can be reasonably well described by preequilibrium-model calculations with two-quasiparticle state densities for proton-particle neutron-hole configurations based on Nilsson-model single-particle levels instead of equidistant ones. The influence of nuclear deformation and pairing on preequilibrium particle emission is explored.

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Theoretical treatment of analog (p,n) cross sections for odd nuclei: Application to measurements ofPd105at 26 MeV

Madsen¹,

Rw²,

Jd³

et al. 1993

Phys. Rev. C

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Differential cross sections for the (p, n) reaction to the ground-state and excited-state analogs of ' 'Pd have been measured at a proton bombarding energy of 26 MeV. Both the magnitude and the angular distribution of the cross sections for the analog states are found to follow the same general trend observed for the even-even palladium isotopes. Contributions to the analog transition on odd-A targets from spin-Rip, higher multipoles, collective admixtures, and multistep processes are calculated and are found to be of order 1/(N -Z) or smaller, as compared to the (N -Z) scaling expected for the Fermi transition. This is in agreement with our experimental data which show that the analog cross section scales as (N -Z) relative to the neighboring nuclei. Among the excited analog states within the first MeV of excitation, the levels at 0.44 and 0.78 MeV were the most strongly populated. This is consistent with a two-step mechanism involving inelastic scattering and charge exchange, since these two states are also known to have the largest B(E2) values. Although the small predicted magnitude of the additional contributions for nonzero spin targets agrees nicely with the present measurements for ' 'Pd, it leaves the puzzle as to why cross sections for odd isotopes for titanium and molybdenum measured in previous work were found to be larger than corresponding cross sections for adjacent even isotopes.PACS number(s): 25.40.Kv, 21.10.Hw, 27.60.+j the database on odd-even differences in analog states by measuring cross sections for ' Pd to compare with adjacent even isotopes [3]. At the same time, a careful examination of theoretical predictions is presented not just for spin Aip, but also higher multipoles, collective admixtures in the ground state, and higher-order (multistep) contributions to the analog cross section. Section II of this paper gives a description of our experiment and the methods used for data reduction. Section III contains the theoretical development, Sec. IV is a discussion of our results, and Sec. V presents a summary and our conclusions. 47 2077 1993 The American Physical Society 2078 V. A. MADSEN et al. 47

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S. Stamer

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Theoretical treatment of analog (p,n) cross sections for odd nuclei: Application to measurements ofPd105at 26 MeV

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