Physics – Instrumentation and Detectors
Scientific paper
2009-11-26
Radiat.Meas.45:1313-1317,2010
Physics
Instrumentation and Detectors
9 pages, 8 figures. Presented at the 11th Neutron And Ion Dosimetry Symposium (NEUDOS-11) iThemba LABS, Cape Town, South Afric
Scientific paper
10.1016/j.radmeas.2010.06.036
A novel radiation detector based on an artificial single crystal diamond was used to characterize in detail the energy distribution of neutron reference fields at the Physikalisch-Technische Bundesanstalt (PTB) and their contamination with charged particles. The monoenergetic reference fields at PTB in the neutron energy range from 1.5 MeV up to 19 MeV are generated by proton and deuteron beams impinging on solid and gas targets of tritium and deuterium. The energy of the incoming particles and the variation of the angle under which the measurement is performed produce monoenergetic reference fields with different mean energies and line shapes. In this paper we present high resolution neutron spectrometry measurements of different monoenergetic reference fields. The results are compared with calculated spectra taking into account the actual target parameters. Line structures in the order of 80 keV for a neutron energy of 9 MeV were resolved. The shift of the mean energy and the increasing of the width of the neutron peak with increasing pressure in the gas target in the order of 30 keV were measured. Another result is the determination of the contamination of the neutron field at 14 MeV with high energy charged particles (protons) from side reactions inside the T-target. The experiments have shown that this detector is an easy to operate compact neutron spectrometer with extremely good energy resolution and that detailed structures in the line shapes of monoenergetic neutron fields can be resolved without using time of flight techniques.
Giacomelli L.
Nolte R.
Schuhmacher H.
Zimbal A.
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