Nuclear astrophysics, advanced nuclear technology and nuclear structure physics present many cases that require neutron capture reaction data with high precision. In particular, refined data are needed for stellar nucleosynthesis, for nuclear waste transmutation studies, and for the design of generation IV reactors. The measurements take profit of the pulsed neutron beam of the n-TOF facility at CERN, which is generated by protoninduced spallation reactions on a massive lead target. The low repetition rate of the proton beam, the high instantaneous neutron flux, and the favourable background conditions in the experimental area make this facility unique for high resolution time-of-flight measurements of neutron induced reaction cross sections. The n-TOF collaboration is presently operating two different experimental set-ups. The first consists of two low-neutron sensitivity CgDg detectors with the analysis relying on the Pulse Height Weighting technique. In addition, a Total Absorption Calorimeter, consisting of 40 BaF2 crystals covering the whole solid angle, was used. A review of several capture measurements with these detectors on selected stable and unstable samples will be presented. © 2009 American Institute of Physics.
Milazzo P.M., Abbondanno U., Aerts G., Alvarez H., Alvarez-Velarde F., Andriamonje S., et al. (2009). Neutron capture measurements at the n-TOF Facility. ;2 Huntington Quadrangle, Suite N101 : American Institute of Physics [10.1063/1.3122267].
Neutron capture measurements at the n-TOF Facility
Massimi C.;Vannini G.;
2009
Abstract
Nuclear astrophysics, advanced nuclear technology and nuclear structure physics present many cases that require neutron capture reaction data with high precision. In particular, refined data are needed for stellar nucleosynthesis, for nuclear waste transmutation studies, and for the design of generation IV reactors. The measurements take profit of the pulsed neutron beam of the n-TOF facility at CERN, which is generated by protoninduced spallation reactions on a massive lead target. The low repetition rate of the proton beam, the high instantaneous neutron flux, and the favourable background conditions in the experimental area make this facility unique for high resolution time-of-flight measurements of neutron induced reaction cross sections. The n-TOF collaboration is presently operating two different experimental set-ups. The first consists of two low-neutron sensitivity CgDg detectors with the analysis relying on the Pulse Height Weighting technique. In addition, a Total Absorption Calorimeter, consisting of 40 BaF2 crystals covering the whole solid angle, was used. A review of several capture measurements with these detectors on selected stable and unstable samples will be presented. © 2009 American Institute of Physics.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
