Conceptual design of the ITER fast-ion loss detector.

M García-Muñoz ,L Sanchis-Sanchez,T Giacomin,J Gonzalez-Martin,Y Bonnet,M Rodriguez-Ramos,L Bertalot,A Snicker,V Kiptily,R Reichle,N Casal,E Veshchev,S D Pinches,J Ayllon-Guerola,G Vayakis,J Galdon,R Walton,J F Rivero-Rodriguez,C Vorpahl ,Michael J Walsh ,J Garcı́a-López ,M Kočan ,J Gunn ,M C Jiménez-Ramos

doi:10.1063/1.4961295

Abstract

A conceptual design of a reciprocating fast-ion loss detector for ITER has been developed and is presented here. Fast-ion orbit simulations in a 3D magnetic equilibrium and up-to-date first wall have been carried out to revise the measurement requirements for the lost alpha monitor in ITER. In agreement with recent observations, the simulations presented here suggest that a pitch-angle resolution of ∼5° might be necessary to identify the loss mechanisms. Synthetic measurements including realistic lost alpha-particle as well as neutron and gamma fluxes predict scintillator signal-to-noise levels measurable with standard light acquisition systems with the detector aperture at ∼11 cm outside of the diagnostic first wall. At measurement position, heat load on detector head is comparable to that in present devices.

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