Overview of the FTU results

Pucella, G; Alessi, E; Angelini, B; Apicella, M; Apruzzese, G; Artaserse, G; Baiocchi, B; Belli, F; Bin, W; Bombarda, F; Boncagni, L; Botrugno, A; Briguglio, S; Bruschi, A; Buratti, P; Calabro, G; Cappelli, M; Cardinali, A; Carnevale, D; Carraro, L; Castaldo, C; Causa, F; Ceccuzzi, S; Centioli, C; Cesario, R; Cianfarani, C; Claps, G; Cocilovo, V; Cordella, F; Crisanti, F; D'Arcangelo, O; De Angeli, M; Di Troia, C; Esposito, B; Fanale, F; Farina, D; Figini, L; Fogaccia, G; Frigione, D; Fusco, V; Gabellieri, L; Garavaglia, S; Giovannozzi, E; Gittini, G; Granucci, G; Grosso, G; Iafrati, M; Iannone, F; Laguardia, L; Lazzaro, E; Lontano, M; Maddaluno, G; Magagnino, S; Marinucci, M; Marocco, D; Mazzitelli, G; Mazzotta, C; Mellera, V; Milovanov, A; Minelli, D; Mirizzi, F; Moro, A; Nowak, S; Pacella, D; Pallotta, F; Panaccione, L; Panella, M; Pericoli-Ridolfini, V; Pizzuto, A; Podda, S; Puiatti, M; Ramogida, G; Ravera, G; Ricci, D; Romano, A; Simonetto, A; Sozzi, C; Tartari, U; Tuccillo, A; Tudisco, O; Valisa, M; Viola, B; Vitale, E; Vlad, G; Zeniol, B; Zerbini, M; Zonca, F; Aquilini, M; Cefali, P; Di Ferdinando, E; Di Giovenale, S; Giacomi, G; Grosso, A; Mezzacappa, M; Pensa, A; Petrolini, P; Piergotti, V; Raspante, B; Rocchi, G; Sibio, A; Tilia, B; Tulli, R; Vellucci, M; Zannetti, D; Almaviva, S; Bagnato, F; Brolatti, G; Buscarino, A; Calacci, L; Caneve, L; Carlini, M; Colao, F; Corradino, C; Costa, P; Crescenzi, F; Cucchiaro, A; Doria, A; Ferro, G; Gabrielli, A; Galeani, S; Galperti, C; Gasior, P; Giovenale, E; Gospodarczyk, M; Jakubowski, L; Kubkowska, M; Lampasi, A; Lazic, V; Lubyako, L; Maffia, G; Martinelli, F; Solis, J; Maviglia, F; Mazzuca, R; Moneti, M; Orsitto, F; Palucci, A; Passeri, M; Popovic, Z; Possieri, C; Rabinski, M; Ratynskaia, S; Reale, M; Roccella, S; Sassano, M; Starace, F; Tolias, P; Vertkov, A; Zebrowski, J; Zito, P

doi:10.1088/1741-4326/ab19ef

Since the 2016 IAEA Fusion Energy Conference, FTU operations have been mainly devoted to experiments on runaway electrons and investigations into a tin liquid limiter; other experiments have involved studies of elongated plasmas and dust. The tearing mode onset in the high density regime has been studied by means of the linear resistive code MARS, and the highly collisional regimes have been investigated. New diagnostics, such as a runaway electron imaging spectroscopy system for in-flight runaway studies and a triple Cherenkov probe for the measurement of escaping electrons, have been successfully installed and tested, and new capabilities of the collective Thomson scattering and the laser induced breakdown spectroscopy diagnostics have been explored.

Pucella, G., Alessi, E., Angelini, B., Apicella, M., Apruzzese, G., Artaserse, G., et al. (2019). Overview of the FTU results. NUCLEAR FUSION, 59(11), 112015 [10.1088/1741-4326/ab19ef].