L
L. Panaccione
Researcher at ENEA
Publications - 50
Citations - 594
L. Panaccione is an academic researcher from ENEA. The author has contributed to research in topics: Tokamak & Frascati Tokamak Upgrade. The author has an hindex of 13, co-authored 50 publications receiving 560 citations.
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Overview of the FTU results
G. Pucella,E. Alessi,L. Amicucci,B. Angelini,M.L. Apicella,G. Apruzzese,G. Artaserse,E. Barbato,F. Belli,A. Bertocchi,William Bin,Luca Boncagni,A. Botrugno,Sergio Briguglio,Alessandro Bruschi,P. Buratti,G. Calabrò,A. Cardinali,C. Castaldo,F. Causa,Silvio Ceccuzzi,Cristina Centioli,R. Cesario,C. Cianfarani,V. Cocilovo,F. Crisanti,Ocleto D'Arcangelo,M. De Angeli,R. De Angelis,C. Di Troia,B. Esposito,Daniela Farina,Lorenzo Figini,G. Fogaccia,D. Frigione,V. Fusco,L. Gabellieri,Cristian Galperti,Saul Garavaglia,E. Giovannozzi,Gustavo Granucci,F. Iannone,M. Lontano,G. Maddaluno,C. Marchetto,M. Marinucci,D. Marocco,G. Mazzitelli,C. Mazzotta,A. Milovanov,D. Minelli,Francesco Mirizzi,A. Moro,S. Nowak,F. Orsitto,D. Pacella,L. Panaccione,M. Panella,V. Pericoli-Ridolfini,A. Pizzuto,Salvatore Podda,G. Ramogida,G. L. Ravera,A. Romano,Carlo Sozzi,A. A. Tuccillo,O. Tudisco,B. Viola,E. Vitale,Gregorio Vlad,V. Zanza,M. Zerbini,Fulvio Zonca,M. Aquilini,P. Cefali,E. Di Ferdinando,S. Di Giovenale,G. Giacomi,A. Grosso,V. Mellera,M. Mezzacappa,A. Pensa,P. Petrolini,V. Piergotti,B. Raspante,G. Rocchi,A. Sibio,B. Tilia,R. Tulli,M. Vellucci,D. Zannetti,S. Almaviva,G. P. Canal,Luisa Caneve,Daniele Carnevale,Mario Cavinato,S. Cirant,F. Colao,F. Crescenzi,B. P. Duval,R. Fantoni,L. Federspiel,Sergio Galeani,Giovanni Grosso,L. Jakubowski,A. N. Karpushov,D. Kim,E. Lazzaro,I.E. Lyublinski,Karol Malinowski,Jose Ramon Martin-Solis,Francesco Maviglia,M. Mosconi,Z. Popovic,M. Rabinski,M. Reale,H. Reimerdes,D. Ricci,Marco Riva,S. Roccella,J. X. Rossel,Marek J. Sadowski,Mario Sassano,Olivier Sauter,Duccio Testa,A.V. Vertkov,David N. Wagner,J. Zebrowski +127 more
TL;DR: In this paper, a real-time algorithm for disruption prediction, based on MHD activity signals from Mirnov coils, was developed exploiting a large database of disruptions, and a new actively cooled lithium limiter was inserted in the scrape-off layer, without any damage to the limiter surface.
Journal ArticleDOI
High Core Electron Confinement Regimes in FTU Plasmas with Low- or Reversed-Magnetic Shear and High Power Density Electron-Cyclotron-Resonance Heating
P. Buratti,E. Barbato,Giovanni Bracco,S. Cirant,F. Crisanti,Gustavo Granucci,A. A. Tuccillo,V. Zanza,M. Zerbini,L. Acitelli,F. Alladio,B. Angelini,M.L. Apicella,G. Apruzzese,Luciano Bertalot,A. Bertocchi,M. Borra,Alessandro Bruschi,G. Buceti,A. Cardinali,Cristina Centioli,R. Cesario,C. Cianfarani,S. Ciattaglia,V. Cocilovo,R. De Angelis,F. De Marco,B. Esposito,D. Frigione,L. Gabellieri,Giancarlo Gatti,E. Giovannozzi,C. Gourlan,M. Grolli,A. Imparato,H. Kroegler,M. Leigheb,L. Lovisetto,G. Maddaluno,G. Maffia,M. Marinucci,G. Mazzitelli,P. Micozzi,Francesco Mirizzi,S. Nowak,F.P. Orsitto,D. Pacella,L. Panaccione,M. Panella,V. Pericoli Ridolfini,L. Pieroni,Salvatore Podda,G.B. Righetti,Francesco Romanelli,F. Santini,M. Sassi,S. E. Segre,Alessandro Simonetto,Carlo Sozzi,S. Sternini,O. Tudisco,V. Vitale,Gregorio Vlad,Fulvio Zonca +63 more
TL;DR: In this paper, electron-cyclotron-resonance heating on FTU plasmas at peak densities up to 8 keV has been shown to produce extremely high temperature gradients (up to 120 keV/m).
Journal ArticleDOI
High Plasma Density Lower-Hybrid Current Drive in the FTU Tokamak
V. Pericoli-Ridolfini,E. Barbato,S. Cirant,H. Kroegler,L. Panaccione,Salvatore Podda,F. Alladio,B. Angelini,M.L. Apicella,G. Apruzzese,Luciano Bertalot,A. Bertocchi,M. Borra,Giovanni Bracco,Alessandro Bruschi,G. Buceti,P. Buratti,A. Cardinali,Cristina Centioli,R. Cesario,S. Ciattaglia,V. Cocilovo,F. Crisanti,R. De Angelis,F. De Marco,B. Esposito,D. Frigione,L. Gabellieri,Giancarlo Gatti,E. Giovannozzi,C. Gourlan,Gustavo Granucci,F. Gravanti,M. Grolli,A. Imparato,M. Leigheb,L. Lovisetto,G. Maffia,G. Maddaluno,M. Marinucci,G. Mazzitelli,P. Micozzi,Francesco Mirizzi,S. Nowak,F.P. Orsitto,D. Pacella,M. Panella,L. Pieroni,G.B. Righetti,Francesco Romanelli,F. Santini,M. Sassi,S. E. Segre,Alessandro Simonetto,Carlo Sozzi,E. Sternini,O. Tudisco,V. Vitale,Gregorio Vlad,N. Tartoni,B. Tilia,A. A. Tuccillo,V. Zanza,M. Zerbini,Fulvio Zonca +64 more
TL;DR: Theoretical Plasma Physics, Vol.
Journal ArticleDOI
High density operation on Frascati Tokamak Upgrade
D. Frigione,L. Pieroni,V. Zanza,G. Apruzzese,F. Alladio,M.L. Apicella,R. Bartiromo,M. Borra,Giovanni Bracco,G. Buceti,P. Buratti,Cristina Centioli,Marco Ciotti,V. Cocilovo,I. Condrea,F. Crisanti,R. De Angelis,B. Esposito,Antonio Frattolillo,G. Gatti,E. Giovannozzi,Gustavo Granucci,M. Grolli,A. Imparato,H. Kroegler,M. Leigheb,L. Lovisetto,G. Maddaluno,G. Mazzitelli,P. Micozzi,Silvio Migliori,Arturo Moleti,F. Orsitto,D. Pacella,L. Panaccione,M. Panella,V. Pericoli-Ridolfini,Salvatore Podda,G.B. Righetti,E. Sternini,A. A. Tuccillo,O. Tudisco,F. Valente,V. Vitale,M. Zerbini +44 more
TL;DR: In this paper, the authors investigated plasmas and peaked electron density profiles in the high density regime on the Frascati Tokamak Upgrade (FTU) and obtained a maximum line average density of 3.2*1020 m-3 in the ohmic regime at q=5.1, corresponding to 1.7 times the Greenwald limit.
Journal ArticleDOI
Experiments in FTU with different limiter materials
M.L. Apicella,G. Apruzzese,M. Borra,Giovanni Bracco,Marco Ciotti,I. Condrea,F. Crisanti,R. De Angelis,C. Ferro,L. Gabellieri,Giancarlo Gatti,H. Kroegler,M. Leigheb,G. Maddaluno,G. Maruccia,G. Mazzitelli,D. Pacella,V. Pericoli-Ridolfini,L. Pieroni,R. Zagórski,F. Alladio,R. Bartiromo,G. Buceti,P. Buratti,Cristina Centioli,V. Cocilovo,B. Esposito,Antonio Frattolillo,E. Giovannozzi,M. Grolli,A. Imparato,L. Lovisetto,P. Micozzi,Silvio Migliori,Arturo Moleti,F.P. Orsitto,L. Panaccione,M. Pannella,Salvatore Podda,G.B. Righetti,E. Sternini,A. A. Tuccillo,O. Tudisco,F. Valente,V. Vitale,Roberto Zanino,V. Zanza,M. Zerbini +47 more
TL;DR: In this article, the Frascati Tokamak Upgrade (FTU) has been used to study the plasma characteristics when its limiter material is changed from the usual Inconel (nickel) to molybdenum and tungsten, and a simulation of the experimental results, made with a selfconsistent edge-core coupled model is presented, in order to provide evidence of the main physics mechanisms responsible for the observed behaviour.