@misc{oai:repo.qst.go.jp:00082779,
 author = {Mazzi, Samuele and Garcia, Jeronimo and Zarzoso, David and Kazakov, Yevgen and Ongena, Jef and Nocente, Massimo and Dreval, Mykola and Maiko, Yoshida and Nobuhiko, Hayashi and Maiko, Yoshida and Nobuhiko, Hayashi},
 month = {Sep},
 note = {Understanding and controlling the turbulent transport developing at the ion-scale, which strongly limits the thermal confinement in tokamaks, is crucial in view of the steady-state ITER operations. As ITER will be mainly heated by the fusion-born alpha particles, the development of ITER-relevant scenarios, together with complex numerical analyses, is crucial in order to study the possible effects of the alpha particles on turbulence regimes to date not explored in detail. Therefore, the present work aims at unveiling further steps towards the complete understanding of the impact of fast ions on the microturbulence, by extending the frontiers of our knowledge towards MeV-range of fast ion energy and turbulence patterns different to the well-established ITG, by means of very demanding gyrokinetic numerical analyses., 5th Asia Pacific Conference on Plasma Physics},
 title = {Exploring New Frontiers of the Ion-Scale Turbulence Suppression by Fast Ions},
 year = {2021}
}