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 | 566 | 2019 |
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 | 474 | 2015 |
New B2SOLPS5. 2 transport code for H-mode regimes in tokamaks V Rozhansky, E Kaveeva, P Molchanov, I Veselova, S Voskoboynikov, ... Nuclear fusion 49 (2), 025007, 2009 | 164 | 2009 |
Evolution and stratification of a plasma cloud surrounding a pellet V Rozhansky, I Veselova, S Voskoboynikov Plasma physics and controlled fusion 37 (4), 399, 1995 | 128 | 1995 |
On mechanisms of impurity leakage and retention in the tokamak divertor IY Senichenkov, EG Kaveeva, EA Sytova, VA Rozhansky, ... Plasma Physics and Controlled Fusion 61 (4), 045013, 2019 | 97 | 2019 |
Mass deposition after pellet injection into a tokamak V Rozhansky, I Senichenkov, I Veselova, R Schneider Plasma physics and controlled fusion 46 (4), 575, 2004 | 97 | 2004 |
SOLPS-ITER modelling of ITER edge plasma with drifts and currents E Kaveeva, V Rozhansky, I Senichenkov, E Sytova, I Veselova, ... Nuclear Fusion 60 (4), 046019, 2020 | 77 | 2020 |
Modification of the edge transport barrier by resonant magnetic perturbations V Rozhansky, E Kaveeva, P Molchanov, I Veselova, S Voskoboynikov, ... Nuclear fusion 50 (3), 034005, 2010 | 76 | 2010 |
Contribution of E× B drifts and parallel currents to divertor asymmetries V Rozhansky, P Molchanov, I Veselova, S Voskoboynikov, A Kirk, ... Nucl. Fusion 52 (10), 103017, 2012 | 65 | 2012 |
Integrated exhaust scenarios with actively controlled ELMs PT Lang, A Kallenbach, J Bucalossi, GD Conway, A Degeling, R Dux, ... Nuclear fusion 45 (6), 502, 2005 | 63 | 2005 |
Penetration of supersonic gas jets into a tokamak V Rozhansky, I Senichenkov, I Veselova, D Morozov, R Schneider Nuclear fusion 46 (2), 367, 2006 | 57 | 2006 |
Impact of a pulsed supersonic deuterium gas jet on the ELM behaviour in ASDEX Upgrade PT Lang, J Neuhauser, J Bucalossi, A Chankin, DP Coster, R Drube, ... Plasma physics and controlled fusion 47 (9), 1495, 2005 | 48 | 2005 |
Electric fields and currents in the detached regime of a tokamak V Rozhansky, E Kaveeva, I Senichenkov, E Sytova, I Veselova, ... Contributions to Plasma Physics 58 (6-8), 540-546, 2018 | 43 | 2018 |
Comparing N versus Ne as divertor radiators in ASDEX-upgrade and ITER E Sytova, RA Pitts, E Kaveeva, X Bonnin, D Coster, V Rozhansky, ... Nuclear Materials and Energy 19, 72-78, 2019 | 36 | 2019 |
Ionization–recombination processes and ablation cloud structure for a carbon pellet DK Morozov, VI Gervids, IY Senichenkov, IY Veselova, VA Rozhansky, ... Nuclear fusion 44 (2), 252, 2004 | 31 | 2004 |
Speed-up of SOLPS-ITER code for tokamak edge modeling E Kaveeva, V Rozhansky, I Senichenkov, I Veselova, S Voskoboynikov, ... Nuclear Fusion 58 (12), 126018, 2018 | 29 | 2018 |
Multi-machine SOLPS-ITER comparison of impurity seeded H-mode radiative divertor regimes with metal walls V Rozhansky, E Kaveeva, I Senichenkov, I Veselova, S Voskoboynikov, ... Nuclear Fusion 61 (12), 126073, 2021 | 27 | 2021 |
Modeling of the edge plasma of MAST Upgrade with a Super-X divertor including drifts and an edge transport barrier V Rozhansky, P Molchanov, I Veselova, S Voskoboynikov, A Kirk, ... Plasma physics and controlled fusion 55 (3), 035005, 2013 | 22 | 2013 |
SOLPS-ITER drift modelling of JET Ne and N-seeded H-modes E Kaveeva, V Rozhansky, I Veselova, I Senichenkov, C Giroud, RA Pitts, ... Nuclear Materials and Energy 28, 101030, 2021 | 21 | 2021 |
Plasma edge simulations including realistic wall geometry with SOLPS-ITER W Dekeyser, P Boerner, S Voskoboynikov, VA Rozhanksy, I Senichenkov, ... Nuclear Materials and Energy 27, 100999, 2021 | 21 | 2021 |