CNR ExploRA

Articolo in rivista, 2021, ENG, 10.1063/5.0043766

Design and optimization of an advanced time-of-flight neutron spectrometer for deuterium plasmas of the large helical device

Zhang Y.; Ge L.; Hu Z.; Sun J.; Li X.; Ogawa K.; Isobe M.; Sangaroon S.; Liao L.; Yang D.; Gorini G.; Nocente M.; Tardocchi M.; Fan T.

State Key Laboratory of Nuclear Physics and Technology, Peking University, Beijing China; Dipartimento di Fisica "G. Occhialini," Università degli Studi di Milano-Bicocca, Milano, Italy; National Institute for Fusion Science, Oroshi-cho, Toki, Japan; Institute for Plasma Science and Technology, National Research Council, Milan, Italy.

A time-of-flight neutron spectrometer based on the Time-Of-Flight Enhanced Diagnostic (TOFED) concept has been designed and is under development for the Large Helical Device (LHD). It will be the first advanced neutron spectrometer to measure the 2.45 MeV D-D neutrons (DDNs) from helical/stellarator plasmas. The main mission of the new TOFED is to study the supra-thermal deuterons generated from the auxiliary heating systems in helical plasmas by measuring the time-of-flight spectra of DDN. It will also measure the triton burnup neutrons (TBNs) from the d+t reactions, unlike the original TOFED in the EAST tokamak. Its capability of diagnosing the TBN ratios is evaluated in this work. This new TOFED is expected to be installed in the basement under the LHD hall and shares the collimator with one channel of the vertical neutron camera to define its line of sight. The distance from its primary scintillators to the equatorial plane of LHD plasmas is about 15.5 m. Based on Monte Carlo simulation by a GEANT4 model, the resolution of the DDN energy spectra is 6.6%. When projected onto the neutron rates that are typically obtained in LHD deuterium plasmas (an order of 1015 n/s with neutral beam injection), we expect to obtain the DDN and TBN counting rates of about 2.5 · 105 counts/s and 250 counts/s, respectively. This will allow us to analyze the DDN time-of-flight spectra on time scales of 0.1 s and diagnose the TBN emission rates in several seconds with one instrument, for the first time in helical/stellarator plasmas.

Review of scientific instruments online 92 (5), pp. 053547-1–053547-5