6–10 Sept 2021
Varenna, Villa Monastero
Europe/Rome timezone

Oral_73: Nuclear diagnostics for assessing the performance of the DT burning plasma experiment SPARC

10 Sept 2021, 11:40
30m
Villa Monastero (Varenna, Villa Monastero)

Villa Monastero

Varenna, Villa Monastero

Oral

Speaker

Marco Tardocchi (stituto per la Scienza e Tecnologia dei Plasmi, Consiglio Nazionale delle Ricerche, Milan, Italy)

Description

Various private investors have recently shown their interest into nuclear fusion as a source of clean energy. One of the most challenging project is SPARC, a DT tokamak under development by Commonwealth Fusion Systems in collaboration with the Massachusetts Institute of Technology and contribution from investors among which the Italian ENI. The SPARC [1] tokamak is at present under design and has the main features of being superconducting, of compact size (major radius ~1.9 m, minor radius ~0.6 m) with very high magnetic field (toroidal field>12 T). External heating to achieve these plasma conditions will be provided by ICRH. Despite being of compact size, SPARC aims to reach the conditions of a burning plasma with a fusion gain Q~2 and Pfus~55 MW in the most conservative extrapolations, and Q>10, Pfus~140 MW in the most favorable one, with high power density (Pfusion/Vplasma~7 MWm-3) relevant for fusion power plants. This will open up the possibility to study the alpha particle physics and their of interactions with high-frequency MHD modes.
In this work, starting from the last two decade experience on JET, we will present a preliminary study of the nuclear (neutron and gamma ray) diagnostics that could be installed on SPARC. Focus will be given to the alpha particle diagnostic capabilities offered by gamma ray diagnostic and to the assessment of the effectiveness of ICRH heating scheme with high resolution neutron and gamma ray spectroscopy.

Primary authors

Marco Tardocchi (stituto per la Scienza e Tecnologia dei Plasmi, Consiglio Nazionale delle Ricerche, Milan, Italy) Dr Andrea Dal Molin (CNR-ISTP) Mrs Stefanie Cancelli (Università degli Studi di Milano-Bicocca, Milan, Italy) Dr Gabriele Croci (Università degli Studi di Milano-Bicocca, Milan, Italy) Giovanni Grosso Matteo Hakeem Kushoro (Università degli Studi Milano Bicocca) Giulia Marcer (Università degli Studi di Milano-Bicocca, Milan, Italy) Andrea Muraro (IFP-CNR) Massimo Nocente (Dipartimento di Fisica - Università di Milano-Bicocca) Enrico Panontin Enrico Perelli Cippo (Istituto per la Scienza e Tecnologia dei Plasmi - CNR) Marica Rebai (MIB) Dr Davide Rigamonti (ISTP CNR) Mr Jimmy Scionti (Istituto Scienza e Tecnologia del Plasma-CNR) De Marchi Elena (Magnetic Fusion Energy DE – R&D/MAFE, ENI, Venezia, Italy) Miriam Parisi (3Magnetic Fusion Energy DE – R&D/MAFE, ENI, Venezia, Italy) Antonio Trotta (3Magnetic Fusion Energy DE – R&D/MAFE, ENI, Venezia, Italy) Daniela Farina (Istituto per la Scienza e Tecnologia dei Plasmi, Consiglio Nazionale delle Ricerche, Milan, Italy) Giuseppe Gorini (Universita' degli Studi di Milano-Bicocca)

Presentation materials