In-vessel activation monitors in JET: Progress in modeling

Georges Bonheure, I. Lengar, B. Syme, Elisabeth Wieslander, Mikael Hult, Jol Gasparro, Gerd Marissens, Dirk Arnold, Matthias Laubenstein, S. Popovichev

Research output: Contribution to journalArticlepeer-review

Abstract

Activation studies were performed in JET with new in-vessel activation monitors. Though primarily dedicated to R&D in the challenging issue of lost α diagnostics for ITER, which is being addressed at JET with several techniques, these monitors provide for both neutron and charged particle fluences. A set of samples with different orientation with respect to the magnetic field is transported inside the torus by means of a manipulator arm (in contrast with the conventional JET activation system with pneumatic transport system). In this case, radionuclides with longer half-life were selected and ultralow background gamma-ray measurements were needed. The irradiation was closer to the plasma and this potentially reduces the neutron scattering problem. This approach could also be of interest for ITER, where the calibration methods have yet to be developed. The MCNP neutron transport model for JET was modified to include the activation probe and so provide calculations to help assess the new data. The neutron induced activity on the samples are well reproduced by the calculations.

Original languageEnglish
Article number10E504
JournalReview of Scientific Instruments
Volume79
Issue number10
DOIs
Publication statusPublished - 2008

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