TY  - THES
A1  - Slavkovská, Zuzana
T1  - The thermal neutron capture cross section of 60Fe
N2  - This work derives the value of the neutron capture cross section of 60Fe at the energy of kT = 25 meV. Iron plays an important role in stellar nucleosynthesis, because it is a seed material for the s-process, a neutron capture process in which the elements between iron and bismuth are synthesized.
To determine the thermal neutron cross section of 60Fe, an iron sample produced in the framework of the ERAWAST1 program at the Paul Scherrer Institute in Switzerland was irradiated at the research reactor TRIGA2 at Johannes Gutenberg University in Mainz, Germany. Before the irradiation, the number of 60Fe particles in the sample was calculated using the decay scheme of 60Fe. There were (8.207 ± 0:066 stat 0:298 syst) * 10 14 60Fe particles in the sample.
The irradiation of the sample took place in May 2012. The counting of the reaction product, 61Fe, was undertaken using a HPGe detector located in a laboratory at Johannes Gutenberg University in Mainz. Knowing the number of 60Fe particles in the sample, the number of produced 61Fe particles and the neutron flux from the reactor, the thermal neutron capture cross section of ρth60Fe = (0.203 ± 0:021 stat 0:024 syst) b could be determined.
The determination of the thermal neutron capture cross section at the energy of kT = 25 meV constitutes to the first at this energy. There was already a measurement of the neutron capture cross section of 60Fe at the energy of kT = 25 keV in Karlsruhe in Germany. The result of the measurement was 25 keV = (9.9 ± 2:8 syst 1:4 stat) mb and was published in the year 2009 [14].
Adding datapoints for the cross section at different energies improves extarpolation and helps verification of theoretical models for elemental synthesis. For this reason, a measurement of the 60Fe neutron capture cross section at the energy of kT = 90 keV is planned at Goethe University Frankfurt, Germany.
Having the neutron capture cross section of 60Fe at the energy of kT = 25 keV measured in the year 2009 in Karlsruhe [14], at the energy of kT = 25 meV measured in May 2012 at Johannes Gutenberg University in Mainz and at the planned energy of kT = 90 keV at Goethe University Frankfurt, there will be three points for the extrapolation of the values for the neutron capture cross section of 60Fe. This will lead to a significant reduction in uncertainty with respect to existing theoretical discrepancies.
Y1  - 2012
UR  - http://publikationen.ub.uni-frankfurt.de/frontdoor/index/index/docId/33698
UR  - https://nbn-resolving.org/urn:nbn:de:hebis:30:3-336984
UR  - http://exp-astro.physik.uni-frankfurt.de/docs/slavkovska_12_bachelor.pdf
N1  - Diese Arbeit dürfen wir leider (aus urheberrechtlichen Gründen) nicht außerhalb der UB anbieten, benutzen Sie ersatzweise die o.g. URL.
ER  -