"2"^^ . "Prague" . . "Viererbl, L." . "Prague" . "A principally new diagnostic method has to be developed to complement the magnetic measurements in true steady state regime of operation of future fusion reactors. One of the options is the use of diagnostics based on Hall sensors that are well established in experimental physics and industry, although it is rarely implemented in the fusion plasma physics due to short pulse operation of majority of present day tokamaks. There are two main issues associated with the use of Hall sensors in harsh environment of future fusion reactors i.e. low survival temperature of presently available commercial transducers and questionable stability of these mostly semiconductor sensors under neutron irradiation. Hall sensors based on InSb thin film layers are presently being evaluated as one of the perspective options for ITER ex-vessel steady state magnetic sensors. Here, the compatibility with vacuum vessel baking temperature of 220 oC and with the peak life time neutron fluence of 1018 n/" . "Irradiation Tests of High Temperature Resistant InSb Hall Sensors" . . . . "Irradiation Tests of High Temperature Resistant InSb Hall Sensors"@en . "978-80-7378-102-6" . "Irradiation Tests of High Temperature Resistant InSb Hall Sensors"@en . . "Oszwaldowski, M." . "Z(AV0Z20430508)" . . "RIV/61389021:_____/09:00336678!RIV10-AV0-61389021" . "WDS\u201909 Proceedings of Contributed Papers" . "neutron irradiation; Hall sensors"@en . "Kova\u0159\u00EDk, Karel" . . . "RIV/61389021:_____/09:00336678" . "320434" . . . . "MATFYZPRESS, Prague" . . . "\u010Euran, Ivan" . "[2E0FB0C076DB]" . . "4"^^ . "6"^^ . . "2009-06-02+02:00"^^ . . "Irradiation Tests of High Temperature Resistant InSb Hall Sensors" . "A principally new diagnostic method has to be developed to complement the magnetic measurements in true steady state regime of operation of future fusion reactors. One of the options is the use of diagnostics based on Hall sensors that are well established in experimental physics and industry, although it is rarely implemented in the fusion plasma physics due to short pulse operation of majority of present day tokamaks. There are two main issues associated with the use of Hall sensors in harsh environment of future fusion reactors i.e. low survival temperature of presently available commercial transducers and questionable stability of these mostly semiconductor sensors under neutron irradiation. Hall sensors based on InSb thin film layers are presently being evaluated as one of the perspective options for ITER ex-vessel steady state magnetic sensors. Here, the compatibility with vacuum vessel baking temperature of 220 oC and with the peak life time neutron fluence of 1018 n/"@en .