The upgraded JET gamma-ray cameras based on high resolution/high count rate compact spectrometers
Academic Article
Publication Date:
2018
abstract:
The JET gamma-ray cameras have been recently upgraded within the gamma-ray camera upgrade
project in support of development of JET high performance deuterium plasma scenarios and in prepa-
ration of deuterium-tritium experiments. New, dedicated detectors based on a LaBr
3
crystal and silicon
photo-multipliers have been developed and replaced pre-existing CsI detectors in all 19 channels. The
new instrument gives opportunity of making two-dimensional gamma-ray measurements with a count-
ing rate capability exceeding 1 MCounts/s (MCps) and energy resolution better than 5% at 1.1 MeV.
The upgrade is of relevance for fast ion and runaway electron physics studies in high performance
deuterium discharges and also in plasmas with tritium at neutron yields in the range up to about
5
×
10
17
n/s.
project in support of development of JET high performance deuterium plasma scenarios and in prepa-
ration of deuterium-tritium experiments. New, dedicated detectors based on a LaBr
3
crystal and silicon
photo-multipliers have been developed and replaced pre-existing CsI detectors in all 19 channels. The
new instrument gives opportunity of making two-dimensional gamma-ray measurements with a count-
ing rate capability exceeding 1 MCounts/s (MCps) and energy resolution better than 5% at 1.1 MeV.
The upgrade is of relevance for fast ion and runaway electron physics studies in high performance
deuterium discharges and also in plasmas with tritium at neutron yields in the range up to about
5
×
10
17
n/s.
Iris type:
01.01 Articolo in rivista
Keywords:
High resolution gamma-ray spectroscopy; High count rate gamma-ray spectroscopy; Compact gamma-ray spectrometers; Runaway electron hard X-ray emission spectroscopy; Tomography reconstruction of gamma-ray emission plasmas; Gamma-ray emission from fusion plasmas
List of contributors:
Murari, Andrea; Giacomelli, LUCA CARLO; Tardocchi, Marco
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