Time-of-flight and activation experiments on 147Pm and 171Tm for astrophysics
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Guerrero, C.; TOF Collaboration; Porras Sánchez, José Ignacio; Praena Rodríguez, Antonio JavierEditorial
EDP Sciences
Fecha
2017Referencia bibliográfica
Guerrero, C. ; et.al. Time-of-flight and activation experiments on 147Pm and 171Tm for astrophysics. EPJ Web of Conferences 146, 01007 (2017) ND2016 [http://hdl.handle.net/10481/52140]
Patrocinador
The authors acknowledge financial support by Spanish FPA2013-45083-P and FPA2014-53290-C2-2-P projects and the EC FP7 projects NeutAndalus (Grant No. 334315) and CHANDA (Grant No. 605203).Resumen
The neutron capture cross section of several key unstable isotopes acting as branching points in
the s-process are crucial for stellar nucleosynthesis studies, but they are very challenging to measure due
to the difficult production of sufficient sample material, the high activity of the resulting samples, and the
actual (n,γ ) measurement, for which high neutron fluxes and effective background rejection capabilities are
required. As part of a new program to measure some of these important branching points, radioactive targets
of 147Pm and 171Tm have been produced by irradiation of stable isotopes at the ILL high flux reactor. Neutron
capture on 146Nd and 170Er at the reactor was followed by beta decay and the resulting matrix was purified via
radiochemical separation at PSI. The radioactive targets have been used for time-of-flight measurements at the
CERN n TOF facility using the 19 and 185m beam lines during 2014 and 2015. The capture cascades were
detected using a set of four C6D6 scintillators, allowing to observe the associated neutron capture resonances.
The results presented in this work are the first ever determination of the resonance capture cross section of
147Pm and 171Tm. Activation experiments on the same 147Pm and 171Tm targets with a high-intensity 30 keV
quasi-Maxwellian flux of neutrons will be performed using the SARAF accelerator and the Liquid-Lithium
Target (LiLiT) in order to extract the corresponding Maxwellian Average Cross Section (MACS). The status
of these experiments and preliminary results will be presented and discussed as well.