Richard A. Pitts
Richard A. Pitts
Section Leader, Experiments and Plasma Operation, ITER Organization
Verified email at - Homepage
Cited by
Cited by
Power and particle control
A Loarte, B Lipschultz, AS Kukushkin, GF Matthews, PC Stangeby, ...
Nuclear Fusion 47 (6), S203, 2007
A full tungsten divertor for ITER: Physics issues and design status
RA Pitts, S Carpentier, F Escourbiac, T Hirai, V Komarov, S Lisgo, ...
Journal of Nuclear Materials 438, S48-S56, 2013
Scaling of the tokamak near the scrape-off layer H-mode power width and implications for ITER
T Eich, AW Leonard, P R. A.
Nuclear Fusion 53, 093031, 2013
Physics basis and design of the ITER plasma-facing components
RA Pitts, S Carpentier, F Escourbiac, T Hirai, V Komarov, AS Kukushkin, ...
Journal of Nuclear Materials 415 (1), S957-S964, 2011
Progress on the application of ELM control schemes to ITER scenarios from the non-active phase to DT operation
GSAW A. Loarte, G. Huijsmans, S. Futatani, L.R. Baylor, T.E. Evans, D. M ...
Nucl. Fusion 54, 033007, 2014
The new SOLPS-ITER code package
S Wiesen, D Reiter, V Kotov, M Baelmans, W Dekeyser, AS Kukushkin, ...
Journal of nuclear materials 463, 480-484, 2015
Disruptions in ITER and strategies for their control and mitigation
M Lehnen, K Aleynikova, PB Aleynikov, DJ Campbell, P Drewelow, ...
Journal of Nuclear Materials 463, 39-48, 2015
Status and physics basis of the ITER divertor
RA Pitts, A Kukushkin, A Loarte, A Martin, M Merola, CE Kessel, ...
Physica Scripta 2009 (T138), 014001, 2009
Principal physics developments evaluated in the ITER design review
RJ Hawryluk, DJ Campbell, G Janeschitz, PR Thomas, R Albanese, ...
Nuclear Fusion 49 (6), 065012, 2009
Creation and control of variably shaped plasmas in TCV
F Hofmann, JB Lister, W Anton, S Barry, R Behn, S Bernel, G Besson, ...
Plasma Physics and Controlled Fusion 36 (12B), B277, 1994
Physics basis for the first ITER tungsten divertor
RA Pitts, X Bonnin, F Escourbiac, H Frerichs, JP Gunn, T Hirai, ...
Nuclear Materials and Energy 20, 100696, 2019
ITER tungsten divertor design development and qualification program
T Hirai, F Escourbiac, S Carpentier-Chouchana, A Fedosov, L Ferrand, ...
Fusion Engineering and Design 88 (9-10), 1798-1801, 2013
Interchange turbulence in the TCV scrape-off layer
OE Garcia, J Horacek, RA Pitts, AH Nielsen, W Fundamenski, JP Graves, ...
Plasma physics and controlled fusion 48 (1), L1, 2005
Plasma–surface interaction, scrape-off layer and divertor physics: implications for ITER
B Lipschultz, X Bonnin, G Counsell, A Kallenbach, A Kukushkin, K Krieger, ...
Nuclear Fusion 47 (9), 1189, 2007
Fluctuations and transport in the TCV scrape-off layer
OE Garcia, J Horacek, RA Pitts, AH Nielsen, W Fundamenski, V Naulin, ...
Nuclear fusion 47 (7), 667, 2007
ITER plasma-facing components
M Merola, D Loesser, A Martin, P Chappuis, R Mitteau, V Komarov, ...
Fusion Engineering and Design 85 (10-12), 2312-2322, 2010
Overview of the JET results in support to ITER
X Litaudon, S Abduallev, M Abhangi, P Abreu, M Afzal, KM Aggarwal, ...
Nuclear Fusion 57 (10), 102001, 2017
Transient heat loads in current fusion experiments, extrapolation to ITER and consequences for its operation
A Loarte, G Saibene, R Sartori, V Riccardo, P Andrew, J Paley, ...
Physica Scripta 2007 (T128), 222, 2007
Self-similar density turbulence in the TCV tokamak scrape-off layer
JP Graves, J Horacek, RA Pitts, KI Hopcraft
Plasma physics and controlled fusion 47 (3), L1, 2005
A model of ELM filament evolution due to parallel losses
WFRA Pitts
Plasma Physics and Controlled Fusion 48, 109, 2006
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