List of participants to 8th Runaway Electron Modelling (REM) meeting

Name	Affiliation	Remote participation	Is presenting?
Akinobu Matsuyama	QST	No	ITER SPI modelling for Runaway Electron Avoidance
Alex Tinguely	MIT PSFC	No	Polarized synchrotron emission from post-disruption runaway electrons in the JET C38 campaign
Andrea Casolari	IPP Prague	No	Study of runaway electron transport in the presence of magnetic perturbations in COMPASS: theory and simulations
Andrej Lier	IPP	No	No
Andréas Sundström	Chalmers University of Technology	No	No
Boel Brandström	Chalmers	No	No
Carlos Paz-Soldan	General Atomics	Yes	Some Like it Hot: Temperature Effect on Runaway Electron Seed Formation
Chang Liu	Princeton Plasma Physics Laboratory	Yes	Resistive MHD instabilities affected by runaway electron current
Chris McDevitt	University of Florida	No	Runaway Electron Generation during Tokamak Disruptions
Cristian Sommariva	École Polytechnique Fédérale de Lausanne, Swiss Plasma Center	No	First qualitative analysis of SPI penetration in JET plasmas and runaway electron beams from fast visible camera videos
Cédric Reux	CEA-IRFM	No	Runaway electron generation and suppression with Shattered Pellet Injection at JET
Dylan Brennan	Princeton University	No	Critical physics issues of runaway seed distributions and recent progress in the SCREAM SciDAC
Elisabeth Rachlew	KTH-Physics	No	No
Eric Nardon	CEA	No	JOREK simulations of MGI-triggered disruptions in JET
Gabriella Pautasso	IPP Garching	No	No
Gergely Papp	Max Planck Institute for Plasma Physics	No	MST1 runaway experiments: what we have learned, where to go next?
Gergo Pokol	BME NTI	No	No
Giorgio Ghillardi	ENEA	No	Runaway Electron Imaging Spectroscopy (REIS)
Ida Svenningsson	Chalmers	No	No
István Pusztai	Chalmers	No	No
Jack Connor	CCFE	No	No
Jaroslav Čeřovský	IPP Prague	No	Preparation of Pellet Injection Experiment in Support of Runaway Electron Investigation at the COMPASS tokamak
John Omotani	CCFE	No	No
Katya Richards	University College London	No	No
Klara Insulander Björk	Chalmers	No	Kinetic Modeling of Argon-induced Disruptions in ASDEX Upgrade
Konsta Särkimäki	Chalmers	No	No
Linnea Hesslow	Chalmers	No	No
Lucas Unnerfelt	Chalmers	No	No
Luis Chacon	Los Alamos National Laboratory	No	A 2D-2P multiscale semi-Lagrangian algorithm for fast electron transport in the relativistic Vlasov-Fokker-Planck equation
Marco Paseri	University of Rome Tor Vergata	No	No
Mathias Hoppe	KTH Royal Institute of Technology	No	Theory-supported analysis of runaway electron dynamics using synchrotron radiation
Matthias Hoelzl	Max Planck Institute for Plasma Physics, Garching, Germany	No	Disruption related research with the JOREK code
Mehdi Jenab	Chalmers University of Technology	No	No
Michael Fitzgerald	UKAEA	No	No
Ola Embréus	Chalmers	No	Introduction and review of kinetic modelling of electron runaway at Chalmers
Oliver Linder	Max Planck Institute for Plasma Physics	No	Study of RE formation in MGI scenarios in ASDEX Upgrade with ASTRA
Ondrej Ficker	Institute of Plasma Physics of the CAS, Prague	No	Role of RE energy in magnetic equilibrium of RE beam and in synchrotron radiation intensity in JET and COMPASS discharges
Oskar Vallhagen	Chalmers	No	No
Paul Burger	Gothenburg University	No	No
Pontus Svensson	Chalmers	No	No
Robert Granetz	MIT PSFC	No	The SPARC tokamak: the advantages of very high magnetic field
Sarah Newton	CCFE	No	No
Soma Olasz	Budapest University of Technology and Economics, NTI	No	Runaway electron modeling in the EU-IM framework
Takashi Shiroto	QST	No	Structure-preserving algorithms for the relativistic Vlasov-Fokker-Planck-Maxwell system
Tijs Wijkamp	Eindhoven University of Technology / DIFFER	No	Multispectral imaging in runaway electron studies: line emission reconstruction and synchrotron pattern matching
Tünde Fülöp	Chalmers	No	Introduction and review of runaway activities at Chalmers
Yves Peysson	CEA	No	No