Salta al contenuto principale
Ricerc@Sapienza
Toggle navigation
Home
Login
Home
Persone
renato.gatto@uniroma1.it
Renato Gatto
Professore Associato
Struttura:
DIPARTIMENTO DI INGEGNERIA ASTRONAUTICA, ELETTRICA ED ENERGETICA
E-mail:
renato.gatto@uniroma1.it
Pagina istituzionale corsi di laurea
Curriculum Sapienza
Pubblicazioni
Titolo
Pubblicato in
Anno
Integrated modelling of the ramp-up phase of the hybrid scenario for the JT-60SA tokamak
49thEPS Conference on Plasma Physics, Bordeaux, 3rd - 7th July 2023
2024
Time-extended inductive tokamak discharges with differentially-tilted toroidal field coils
NUCLEAR FUSION
2023
Neon seeding effects on two high-performance baseline plasmas on the Joint European Torus
NUCLEAR FUSION
2023
Validation of D–T fusion power prediction capability against 2021 JET D–T experiments
NUCLEAR FUSION
2023
Thermal neutron detection by means of Timepix3
THE EUROPEAN PHYSICAL JOURNAL PLUS
2023
Overview of JET results for optimising ITER operation
NUCLEAR FUSION
2022
Fusion power predictions for β N ≈ 1.8 baseline scenario with 50–50 D–T fuel mix and NBI injection in preparation to D–T operations at JET
NUCLEAR FUSION
2022
Disruption prediction with artificial intelligence techniques in tokamak plasmas
NATURE PHYSICS
2022
Enhanced performance in fusion plasmas through turbulence suppression by megaelectronvolt ions
NATURE PHYSICS
2022
Neon seeding effects on two JET high performance baseline plasmas
EPS Conference on Plasma Physics proceedings
2022
Predictive modelling of D-T fuel mix control with gas puff and pellets for JET 3.5 MA baseline scenario
EPS Conference on Plasma Physics proceedings
2022
Subcriticality monitoring in fusion-fission hybrid reactors
VOPROSY ATOMNOJ NAUKI I TEHNIKI. SERIÂ, TERMOÂDERNYJ SINTEZ
2021
Novel hybrid pilot experiment proposal for a fusion-fission subcritical coupled system
VOPROSY ATOMNOJ NAUKI I TEHNIKI. SERIÂ, TERMOÂDERNYJ SINTEZ
2021
Moderate beta baseline scenario in preparation to D-T operations at JET
Europhysics conference abstracts
2021
The differentially-tilted toroidal field coil concept for tokamaks
FUSION ENGINEERING AND DESIGN
2019
Endogenous and asymmetric magnetic reconnection with associated processes of relevance to fusion burning plasmas
NUCLEAR FUSION
2019
Nuclear power
Power Engineering: Advances and Challenges, Part A: Thermal, Hydro and Nuclear Power
2018
Next generation nuclear reactors
Power Engineering: Advances and Challenges, Part A: Thermal, Hydro and Nuclear Power
2018
The Monte Carlo GPT methodology for the analysis of ratios of functionals bilinear with the real and adjoint neutron fluxes
ANNALS OF NUCLEAR ENERGY
2017
Turbulent contributions to Ohm's law in axisymmetric magnetized plasmas
PHYSICS OF PLASMAS
2017
1
2
seguente ›
ultima »
Progetti di Ricerca
Studi esplorativi sulle potenzialità di un sistema nucleare ibrido fusione-fissione compatto ad alto campo magnetico a contribuire alla sostenibiltà dell'energia nucleare.
The differentially-tilted toroidal field coil concept for tokamaks.
© Università degli Studi di Roma "La Sapienza" - Piazzale Aldo Moro 5, 00185 Roma