2026 C. Angioni: Physics Researcher – H-Index, Publications & Awards

Discipline name	D-Index	World Ranking	Current World Ranking	National Ranking	Current National Ranking	Publications	Citations
Physics	75	3416	3247	321	307	558	16811

Discipline name

D-Index

World Ranking

Current World Ranking

National Ranking

Current National Ranking

Publications

Citations

Physics

3416

3247

321

307

558

16811

Overview

C. Angioni is affiliated with the Max Planck Society in Germany. Their research primarily concentrates on magnetic confinement fusion and related plasma physics topics. The scientist's work spans multiple fields of study, including:

Physics and Astronomy
Engineering

Within these fields, C. Angioni's subfields of specialization include:

Nuclear and High Energy Physics
Materials Chemistry
Astronomy and Astrophysics
Biomedical Engineering
Aerospace Engineering

The main topics explored in their publications cover areas such as:

Magnetic confinement fusion research
Fusion materials and technologies
Ionosphere and magnetosphere dynamics
Superconducting Materials and Applications
Particle accelerators and beam dynamics
Laser-Plasma Interactions and Diagnostics
Plasma Diagnostics and Applications

C. Angioni has contributed to numerous academic journals, with frequent publication venues including:

Nuclear Fusion
Plasma Physics and Controlled Fusion
Physics of Plasmas
Zenodo (CERN European Organization for Nuclear Research)
Nature Physics

Selected recent papers authored or co-authored by C. Angioni include:

"Impurity transport in tokamak plasmas, theory, modelling and comparison with experiments" (2021, Plasma Physics and Controlled Fusion)
"Overview of JET results for optimising ITER operation" (2022, Nuclear Fusion)
"Enhanced performance in fusion plasmas through turbulence suppression by megaelectronvolt ions" (2022, Nature Physics)
"Overview of T and D-T results in JET with ITER-like wall" (2024, Nuclear Fusion)
"Disruption prediction with artificial intelligence techniques in tokamak plasmas" (2022, Nature Physics)

The scientist frequently collaborates with several colleagues and research groups, including:

E. Fable
N. Bonanomi
the ASDEX Upgrade Team
G. Tardini
P. A. Schneider

Best Publications

Neoclassical conductivity and bootstrap current formulas for general axisymmetric equilibria and arbitrary collisionality regime

O. Sauter;C. Angioni;Y. R. Lin-Liu

1083
Citations
Mean and oscillating plasma flows and turbulence interactions across the L-H confinement transition.

G. D. Conway;C. Angioni;F. Ryter;P. Sauter

372
Citations
Toroidal Momentum Pinch Velocity due to the Coriolis Drift Effect on Small Scale Instabilities in a Toroidal Plasma

A. G. Peeters;C. Angioni;D. Strintzi

293
Citations
On the physics guidelines for a tokamak DEMO

H. Zohm;C. Angioni;E. Fable;G. Federici

292
Citations
Erratum: “Neoclassical conductivity and bootstrap current formulas for general axisymmetric equilibria and arbitrary collisionality regime” [Phys. Plasmas 6, 2834 (1999)]

O. Sauter;C. Angioni;Y. R. Lin-Liu

278
Citations
Physics of transport in tokamaks

X. Garbet;P. Mantica;C. Angioni;E. Asp

242
Citations
Turbulent particle transport in magnetized plasmas.

X. Garbet;L. Garzotti;P. Mantica;H. Nordman

232
Citations
Density peaking, anomalous pinch, and collisionality in tokamak plasmas.

C. Angioni;A. G. Peeters;G. V. Pereverzev;F. Ryter

221
Citations
Particle transport in tokamak plasmas, theory and experiment

Clemente Angioni;Emiliano Fable;M. Greenwald;Mikhail Maslov

221
Citations
Overview of the JET results in support to ITER

X. Litaudon;S. Abduallev;M. Abhangi;P. Abreu

216
Citations
Tungsten transport in JET H-mode plasmas in hybrid scenario, experimental observations and modelling

C. Angioni;P. Mantica;T. Pütterich;M. Valisa

208
Citations
Density response to central electron heating: theoretical investigations and experimental observations in ASDEX Upgrade

C. Angioni;A. G. Peeters;X. Garbet;A. Manini

194
Citations
Direction of impurity pinch and auxiliary heating in tokamak plasmas.

C. Angioni;A. G. Peeters

191
Citations
Plasma wall interaction and its implication in an all tungsten divertor tokamak

R. Neu;M. Balden;V. Bobkov;R. Dux

178
Citations
Experimental studies of electron transport

F Ryter;C Angioni;M Beurskens;S Cirant

176
Citations
Advances in the Physics Basis for the European DEMO Design

R. Wenninger;F. Arbeiter;J. Aubert;L. Aho-Mantila

174
Citations
Experimental Study of Trapped-Electron-Mode Properties in Tokamaks: Threshold and Stabilization by Collisions

F. Ryter;C. Angioni;A. G. Peeters;F. Leuterer

169
Citations
Overview of toroidal momentum transport

A. G. Peeters;C. Angioni;A. Bortolon;Y. Camenen

169
Citations
Effects of localized electron heating and current drive on the sawtooth period

C. Angioni;T. P. Goodman;M. A. Henderson;O. Sauter

160
Citations
A key to improved ion core confinement in the JET tokamak: ion stiffness mitigation due to combined plasma rotation and low magnetic shear.

P. Mantica;C. Angioni;C. Challis;G. Colyer

155
Citations