George J. Wilkie
George J. Wilkie
Princeton Plasma Physics Laboratory
Verified email at - Homepage
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Overview of the JET preparation for deuterium–tritium operation with the ITER like-wall
E Joffrin, S Abduallev, M Abhangi, P Abreu, V Afanasev, M Afzal, ...
Nuclear Fusion 59 (11), 112021, 2019
Physics research on the TCV tokamak facility: from conventional to alternative scenarios and beyond
S Coda, M Agostini, R Albanese, S Alberti, E Alessi, S Allan, J Allcock, ...
Nuclear Fusion 59 (11), 112023, 2019
Effect of partially ionized impurities and radiation on the effective critical electric field for runaway generation
L Hesslow, O Embréus, GJ Wilkie, G Papp, T Fülöp
Plasma Physics and Controlled Fusion 60 (7), 074010, 2018
Dependence on plasma shape and plasma fueling for small edge-localized mode regimes in TCV and ASDEX Upgrade
B Labit, T Eich, GF Harrer, E Wolfrum, M Bernert, MG Dunne, L Frassinetti, ...
Nuclear fusion 59 (8), 086020, 2019
First principles of modelling the stabilization of microturbulence by fast ions
GJ Wilkie, A Iantchenko, IG Abel, E Highcock, I Pusztai, JET Contributors
Nuclear Fusion 58 (8), 082024, 2018
Validating modeling assumptions of alpha particles in electrostatic turbulence
GJ Wilkie, IG Abel, EG Highcock, W Dorland
Journal of Plasma Physics 81 (3), 905810306, 2015
Transport and deceleration of fusion products in microturbulence
GJ Wilkie, IG Abel, M Landreman, W Dorland
Physics of Plasmas 23 (6), 060703, 2016
Global anomalous transport of ICRH-and NBI-heated fast ions
GJ Wilkie, I Pusztai, I Abel, W Dorland, T Fülöp
Plasma Physics and Controlled Fusion 59 (4), 044007, 2017
Fundamental form of the electrostatic δf-PIC algorithm and discovery of a converged numerical instability
GJ Wilkie, W Dorland
Physics of Plasmas 23 (5), 052111, 2016
Microturbulent transport of non-Maxwellian alpha particles
GJ Wilkie
University of Maryland, College Park, 2015
Turbulent transport of MeV range cyclotron heated minorities as compared to alpha particles
I Pusztai, GJ Wilkie, YO Kazakov, T Fülöp
Plasma Physics and Controlled Fusion 58 (10), 105001, 2016
Alpha particle driven Alfvénic instabilities in ITER post-disruption plasmas
A Lier, G Papp, PW Lauber, O Embreus, GJ Wilkie, S Braun
Nuclear Fusion 61 (8), 086003, 2021
Modelling Runaway Electrons Dynamics in Tokamak Plasmas: Progresses and Challenges
Y Peysson, G Anastassiou, JF Artaud, A Budai, A Brizard, J Decker, ...
27th IAEA Fusion Energy Conference (FEC 2018), 2019
Data‐Driven Discovery of Fokker‐Planck Equation for the Earth's Radiation Belts Electrons Using Physics‐Informed Neural Networks
E Camporeale, GJ Wilkie, AY Drozdov, J Bortnik
Journal of Geophysical Research: Space Physics 127 (7), e2022JA030377, 2022
Kinetic modeling of neutral transport for a continuum gyrokinetic code
TN Bernard, FD Halpern, M Francisquez, NR Mandell, J Juno, ...
Physics of Plasmas 29 (5), 052501, 2022
Machine-learning based discovery of missing physical processes in radiation belt modeling
E Camporeale, GJ Wilkie, A Drozdov, J Bortnik
arXiv preprint arXiv:2107.14322, 2021
Kinetic modelling of runaways in fusion plasmas
T Fülöp, O Embréus, A Stahl, S Newton, I Pusztai, G Wilkie
Preprint: 2016 IAEA Fusion Energy Conf.(), 2016
Benchmarks of a conservative spectral solver for the nonlinear Boltzmann transport equation.
G Wilkie
Bulletin of the American Physical Society, 2022
What can an edge gyrokinetic code do about the integrated tokamak exhaust and pedestal performance gap?
C Chang, SH Ku, R Hager, M Churchill, J Dominski, G Wilkie
Bulletin of the American Physical Society, 2022
Low recycling, low collisionality and high performance with lithium conditioning in LTX-β
A Maan, D Boyle, G Wilkie, M Francisquez, D Majeski, R Kaita, ...
Bulletin of the American Physical Society, 2022
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