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Vascon, A.; Wiehl, N.*; Runke, J.*; Drebert, J.*; Reich, T.*; Trautmann, N.*; Cremer, B.*; Kgler, T.*; Beyer, R.*; Junghans, A.*; et al.
no journal, ,
TRAKULA is a joint research project of the German Federal Ministry of Science and Education (BMBF) whose main focus is on obtaining high-quality nuclear data relevant to the transmutation of radioactive waste. Fission cross section measurements on actinides, carried out as a part of the TRAKULA project, require well characterized and very homogeneous large-area actinide targets. Molecular plating is one of the most successfully applied techniques for the production of nuclear targets. The element of interest is electrodeposited from an organic medium with quantitative yields. Yet MP-produced targets are usually defective, characterized by surface cracks, and sometimes with poor structural rigidity. Such properties negatively affect the experiments to be performed. In order to produce optimum targets for TRAKULA, in the last years we have undertaken efforts to improve the quality of the obtained layers. The latest results of these studies will be reported, which allowed identifying those plating parameters that have a crucial influence on the homogeneity, structural rigidity, surface roughness, and morphology of the layers. The presentation will also demonstrate that nuclear targets perform differently depending on the properties of the layers. Finally, characterization analyses and preliminary results of the performance of the targets produced for the TRAKULA-related fission experiments will be shown.
Vascon, A.; Wiehl, N.*; Runke, J.*; Drebert, J.*; Reich, T.*; Trautmann, N.*; Cremer, B.*; Kgler, T.*; Beyer, R.*; Junghans, A. R.*; et al.
no journal, ,
In the last years efforts have been undertaken to improve the quality of nuclear targets. Experiments have been performed with lanthanide elements. Plating parameters have been varied and their effects on the material properties of the produced targets have been investigated. The combined use of as smooth as possible substrates and low volatility solvents has turned out to be effective for the production of smooth defect-free layers. The comparison between the performance of these layers and conventional targets has been studied in spectroscopy experiments. Improvements in relative detection efficiency of as much as 15% have been achieved. In the symposium, the plating parameters that have a crucial influence on the material properties and performance of nuclear targets will be discussed. Results of the application of the optimized plating procedure to the production of actinide targets will be also shown.