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XIII Nuclei in the Cosmos, 7-11 July, 2014 Debrecen, Hungary.
As an alternative production scenario to the so-called g process, the most abundant p nucleus 92Mo may be produced by a chain of proton-capture reactions in supernovae type Ia. The reactions 90Zr(p,g) and 91Nb(p,g) are the most important reactions in this chain. We have measured the first reaction using high-resolution in-beam g-spectroscopy at HORUS, Cologne, Germany, to contribute to the existing experimental data base. So far, we only investigated the high-energy part of the Gamow window and the analysis is still in progress. We plan to study the second reaction in standard kinematics at the FRANZ facility, Frankfurt, Germany. Current developments at FRANZ will be explained in detail.
Experiments for p-process nucleosynthesis with special focus on the most abundant p nucleus 92Mo
(2014)
This thesis describes experimental investigations and astrophysical network calculations relevant for the nucleosynthesis of the p nuclei. These 35 proton-rich isotopes cannot be produced by neutron-capture reactions which is the general production mechanism for elements heavier than iron in the r and s processes. Therefore, other mechanisms like photo-disintegration reactions on heavy seed nuclei (γ process) or proton-capture reactions are taken into account.
The modelling of these processes relies on a hugh amount of reactions which mostly occur for unstable isotopes. This demands, in combination with the contribution of excited states to the stellar rate, the prediction of the rates by a suited theoretical approach: the Hauser-Feshbach statistical model. To improve the reliability of the predictions, systematic experimental investigations are performed within this work for the nuclear input to the calculations. The study of charged-particle optical model potentials using the activation approach for the investigation of (α,n) and (p,n) reactions is described as well as the investigation of (γ,n) reactions in a broad mass range of 140 ≤ A ≤ 210.
However, there are also key reactions which are of special interest for the nucleosynthesis of individual p nuclei. An impressive example is the puzzle about the production of the most abundant p nucleus 92Mo. Within this work, the results of an experiment using high-resolution in-beam γ-spectroscopy for the study of the 90Zr(p,γ) reaction are summarized. In addition, the efforts to investigate the 91Nb(p,γ) reaction in standard kinematics by the production of target of the unstable isotope 91Nb to be used with the high-intensity proton-beam provided by the accelerator of FRANZ, Frankfurt, are discussed.
Finally, the influence of experimental results in astrophysical network calculations is discussed using post-processing nucleosynthesis methods for the γ process in type II supernovae.
The electric dipole strength distribution in 130Te has been investigated using the method of Nuclear Resonance Fluorescence. The experiments were performed at the Darmstadt High Intensity Photon Setup using bremsstrahlung as photon source and at the High Intensity -Ray Source, where quasi-monochromatic and polarized photon beams are provided. Average decay properties of 130Te below the neutron separation energy are determined. Comparing the experimental data to the predictions of the statistical model indicate, that nuclear structure effects play an important role even at sufficiently high excitation energies. Preliminary results will be presented.