2026 G. Federici: Engineering and Technology Researcher – H-Index, Publications & Awards

D-Index & Metrics

Discipline name	D-Index	World Ranking	Current World Ranking	National Ranking	Current National Ranking	Publications	Citations
Engineering and Technology	62	1872	1783	55	54	246	16347

Discipline name

D-Index

World Ranking

Current World Ranking

National Ranking

Current National Ranking

Publications

Citations

Engineering and Technology

1872

1783

246

16347

Engineering and Technology

D-Index

Citations

16347

World Ranking

1872

National Ranking

Overview

G. Federici is affiliated with the Max Planck Society in Germany and has a research focus at the intersection of engineering, physics, and materials science. Their work strongly aligns with the field of fusion energy research, with particular attention to magnetic confinement fusion and fusion materials and technologies.

The scientist's main fields of study include:

Engineering
Physics and Astronomy
Materials Science

Their research spans several subfields such as aerospace engineering, materials chemistry, nuclear and high energy physics, biomedical engineering, and molecular biology.

Key topics covered by Federici's publications include:

Magnetic confinement fusion research
Fusion materials and technologies
Superconducting materials and applications
Nuclear reactor physics and engineering
Particle accelerators and beam dynamics
Nuclear physics and applications
Genomics and rare diseases

Prominent publication venues where Federici has contributed include:

Fusion Engineering and Design
Nuclear Fusion
IEEE Transactions on Applied Superconductivity
Cell Death and Disease
Nuclear Materials and Energy

Frequent co-authors in Federici's research collaborations are:

M. Siccinio
C. Bachmann
Lorenzo Giannini
S. Ciattaglia
Cesar Luongo

Recent papers authored or co-authored by Federici include:

Variants of uncertain significance in the era of high-throughput genome sequencing: a lesson from breast and ovary cancers, 2020, Journal of Experimental & Clinical Cancer Research
DEMO physics challenges beyond ITER, 2020, Fusion Engineering and Design
Progress of the conceptual design of the European DEMO breeding blanket, tritium extraction and coolant purification systems, 2020, Fusion Engineering and Design
Diagnostic and prognostic potential of the proteomic profiling of serum-derived extracellular vesicles in prostate cancer, 2021, Cell Death and Disease
Impact of plasma-wall interaction and exhaust on the EU-DEMO design, 2021, Nuclear Materials and Energy

Best Publications

Chapter 4: Power and particle control

A. Loarte;B. Lipschultz;A.S. Kukushkin;G.F. Matthews

1436
Citations
Characteristics of type I ELM energy and particle losses in existing devices and their extrapolation to ITER

A. Loarte;G. Saibene;R. Sartori;D. Campbell

702
Citations
Plasma facing and high heat flux materials-needs for ITER and beyond

H. Bolt;V. Barabash;G. Federici;J. Linke

574
Citations
Key ITER plasma edge and plasma–material interaction issues

G. Federici;P. Andrew;P. Barabaschi;J. Brooks

467
Citations
Assessment of erosion of the ITER divertor targets during type I ELMs

G. Federici;A. Loarte;G. Strohmayer

438
Citations
Overview of EU DEMO design and R&D activities

G. Federici;R. Kemp;D. Ward;C. Bachmann

390
Citations
European DEMO design strategy and consequences for materials

G. Federici;W. Biel;W. Biel;M.R. Gilbert;R. Kemp

371
Citations
DEMO design activity in Europe: Progress and updates

G. Federici;C. Bachmann;L. Barucca;Wolfgang Biel

315
Citations
Fusion electricity: a roadmap to the realization of fusion energy

F Romanelli;P Barabaschi;D Borba;G Federici

303
Citations
An overview of the EU breeding blanket design strategy as an integral part of the DEMO design effort

G. Federici;L. Boccaccini;F. Cismondi;M. Gasparotto

301
Citations
On the physics guidelines for a tokamak DEMO

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

292
Citations
Principal Physics Developments Evaluated in the ITER Design Review

R. J. Hawryluk;D. J. Campbell;G. Janeschitz;P. R. Thomas

278
Citations
Overview of the design approach and prioritization of R&D activities towards an EU DEMO

G Federici;C Bachmann;Wolfgang Biel;Wolfgang Biel;L Boccaccini

263
Citations
The ITER divertor concept

G. Janeschitz;K. Borrass;G. Federici;Y. Igitkhanov

251
Citations
Overview of the DEMO staged design approach in Europe

G. Federici;C. Bachmann;L. Barucca;C. Baylard

243
Citations
Plasma-surface interaction, scrape-off layer and divertor physics:Implications for ITER

B. Lipschultz;X. Bonnin;G. Counsell;A. Kallenbach

220
Citations
Transient heat loads in current fusion experiments, extrapolation to ITER and consequences for its operation

A. Loarte;G. Saibene;R. Sartori;V. Riccardo

205
Citations
Effects of ELMs on ITER divertor armour materials

A. Zhitlukhin;N. Klimov;I. Landman;J. Linke

200
Citations
DEMO divertor limitations during and in between ELMs

R.P. Wenninger;M. Bernert;T. Eich;E. Fable

175
Citations
Advances in the Physics Basis for the European DEMO Design

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

174
Citations
Assessment of erosion and tritium codeposition in ITER-FEAT

G Federici;J.N Brooks;D.P Coster;G Janeschitz

170
Citations
In-vessel tritium retention and removal in ITER-FEAT

G. Federici;J. N. Brooks;M. Iseli;C. H. Wu

24
Citations
Plasma-material Interactions in Current Tokamaks and their Implications for Next-step Fusion Reactors

G. Federici;C.H. Skinner;J.N. Brooks;J.P. Coad

18
Citations