negative ions
Showing 1–10 of 26 results
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Influence of positive ions on the beamlet optics for negative-ion neutral beam injectors
Pimazzoni, A.; Sartori, E.; Serianni, G.; Veltri, P. -
Influence of plasma parameters on the effectiveness of multi-cusp magnetic field confinement in negative ion sources
Candeloro V.; Sartori E.; Serianni G. -
High Resolution Probe for filament transport and current density study at the edge region of W7-X
Spolaore, M.; Agostinetti, P.; Killer, C.; Moresco, M.; Brombin, M.; Cavazzana, R.; Ghiraldelli, R.; Grenfell, G.; Grulke, O.; Lazerson, S. A.; Martines, E.; Neubauer, O.; Nicolai, D.; Satheeswaran, G.; Schweer, B.; Vianello, N.; Visentin, M. -
Heat loads on the accelerator grids of the ITER HNB prototype
Pimazzoni A.; Agostinetti P.; Aprile D.; Serianni G.; Sartori E.; Veronese F.; Veltri P. -
Influence of plasma grid-masking on the results of early SPIDER operation
Sartori E.; Candeloro V.; Fadone M.; Pimazzoni A.; Serianni G. -
Study of positive ion transport to the plasma electrode in giant RF negative ion sources
Segalini B.; Poggi C.; Fadone M.; Serianni G.; Sartori E. -
Numerical and experimental investigations of a microwave interferometer for the negative ion source SPIDER
Agnello R.; Cavazzana R.; Furno I.; Jacquier R.; Pasqualotto R.; Sartori E.; Serianni G. -
Design of an optimised movable electrostatic diagnostic for the investigation of plasma properties in a large negative ion source
Candeloro V.; Calciolari L.; Gnesotto F.; Sartori E.; Serianni G.; Trevisan L.; Pasqualotto R. -
Beam and installation improvements of the NIO1 ion source
Cavenago M.; Barbisan M.; Delogu R.; Pimazzoni A.; Poggi C.; Ugoletti M.; Agostini M.; Antoni V.; Baltador C.; Cervaro V.; De Muri M.; Giora D.; Jain P.; Laterza B.; Maero G.; Maniero M.; Martini D.; Minarello A.; Ravarotto D.; Recchia [ Et al. ] -
Overview of photo-neutralization techniques for negative ion-based neutral beam injectors in future fusion reactors
Fiorucci D.; Fassina A.