Jonathan Graves

EPFL SB SPC-TH
PPB 114 (Bâtiment PPB)
Station 13
CH-1015 Lausanne
Web site: Web site: https://spc.epfl.ch/
+41 21 693 65 45
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Web site: Web site: https://sph.epfl.ch/
Biography
Professor Jonathan Graves shares his time with the University of York, where he is Chair in Magnetic Confinement Fusion Plasmas, and with the Swiss Plasma Center in EPFL. He achieved first class joint honours in Electronic Engineering and Mathematics from the University of Nottingham, UK in 1996. During his Ph.D. (Theoretical Mechanics, University of Nottingham 1999) he was based in at Culham Laboratory, United Kingdom Atomic Energy Authority, developing kinetic models of plasma instabilities, and participating in deuterium-tritium experimental analysis in the Joint European Torus. After a short time in industry he took a position at the Swiss Plasma Center at EPFL, becoming a Senior Scientist in 2014. In 2015 he became a member of the EUROfusion Scientific and Technical Advisory Committee (STAC) and a member of the EUROfusion DEMO Technical Advisory Group. He is on the editorial board for the journal Plasma Physics and Controlled Fusion, and from 2020 became Scientific Secretary of the Varenna-Lausanne International Workshop in Theory of Fusion Plasmas. In 2022 he became Chair in Magnetic Confinement Fusion Plasmas, Professor of the School of Physics, Engineeering and Technology, University of York, UK.Research Interests
Magnetohydrodynamic confinement and stability of tokamak plasmas, linear and non-linear resistive instabilities, long wavelength kinetic instabilities in tokamaks, kinetic theory, fast particle physics, 3D Alfvenic and Wave codes (LEMan code), guiding centre theory and codes (VENUS-LEVIS code), ion cyclotron resonance heating in 3D (SCENIC code), impurity transport in 3D rotating plasmasPublications
Infoscience publications
Research
Research
Magnetohydrodynamic confinement and stability of tokamak plasmas, linear and non-linear resistive instabilities, long wavelength kinetic instabilities in tokamaks, kinetic theory, fast particle physics, 3D Alfvenic and Wave codes (LEMan code), guiding centre theory and codes (VENUS-LEVIS code), ion cyclotron resonance heating in 3D (SCENIC code), impurity transport in 3D rotating plasmasTeaching & PhD
Teaching
Physics