Simulations of tokamak boundary plasma turbulence transport in setting the divertor heat flux width XQ Xu, NM Li, ZY Li, B Chen, TY Xia, TF Tang, B Zhu, VS Chan Nuclear Fusion 59 (12), 126039, 2019 | 61 | 2019 |
Uncovering turbulent plasma dynamics via deep learning from partial observations A Mathews, M Francisquez, JW Hughes, DR Hatch, B Zhu, BN Rogers Physical Review E 104 (2), 025205, 2021 | 59* | 2021 |
GDB: A global 3D two-fluid model of plasma turbulence and transport in the tokamak edge B Zhu, M Francisquez, BN Rogers Computer Physics Communications 232 (11), 46-58, 2018 | 55 | 2018 |
Global 3D two-fluid simulations of the tokamak edge region: Turbulence, transport, profile evolution, and spontaneous E× B rotation B Zhu, M Francisquez, BN Rogers Physics of Plasmas 24 (5), 2017 | 50 | 2017 |
Electric field and turbulence in global Braginskii simulations across the ASDEX Upgrade edge and scrape-off layer W Zholobenko, T Body, P Manz, A Stegmeir, B Zhu, M Griener, ... Plasma Physics and Controlled Fusion 63 (3), 034001, 2021 | 40 | 2021 |
Drift reduced Landau fluid model for magnetized plasma turbulence simulations in BOUT++ framework B Zhu, H Seto, X Xu, M Yagi Computer Physics Communications 267 (10), 108079, 2021 | 27 | 2021 |
Machine learning surrogate models for Landau fluid closure C Ma, B Zhu, XQ Xu, W Wang Physics of Plasmas 27 (4), 2020 | 27 | 2020 |
Global 3D Braginskii simulations of the tokamak edge region of IWL discharges M Francisquez, B Zhu, BN Rogers Nuclear Fusion 57 (11), 116049, 2017 | 23 | 2017 |
Deep learning surrogate model for kinetic Landau-fluid closure with collision L Wang, XQ Xu, B Zhu, C Ma, Y Lei AIP Advances 10 (7), 2020 | 18 | 2020 |
Thermal dynamics in the flux‐coordinate independent turbulence code GRILLIX W Zholobenko, A Stegmeir, T Body, A Ross, P Manz, O Maj, D Coster, ... Contributions to Plasma Physics 60 (5-6), e201900131, 2020 | 17 | 2020 |
A Landau-fluid closure for arbitrary frequency response L Wang, B Zhu, X Xu, B Li AIP Advances 9 (1), 2019 | 15 | 2019 |
Fluid and gyrokinetic turbulence in open field-line, helical plasmas M Francisquez, TN Bernard, B Zhu, A Hakim, BN Rogers, GW Hammett Physics of Plasmas 27 (8), 2020 | 14 | 2020 |
Gyrokinetic theory of slab universal modes and the non-existence of the gradient drift coupling (GDC) instability BN Rogers, B Zhu, M Francisquez Physics of Plasmas 25 (5), 2018 | 13 | 2018 |
Up–down symmetry breaking in global tokamak edge simulations B Zhu, M Francisquez, BN Rogers Nuclear Fusion 58 (10), 106039, 2018 | 8 | 2018 |
Data-driven model for divertor plasma detachment prediction B Zhu, M Zhao, H Bhatia, X Xu, PT Bremer, W Meyer, N Li, T Rognlien Journal of Plasma Physics 88 (5), 895880504, 2022 | 7 | 2022 |
Electromagnetic turbulence simulation of tokamak edge plasma dynamics and divertor heat load during thermal quench B Zhu, X Xu, XZ Tang Nuclear Fusion 63 (8), 086027, 2023 | 6 | 2023 |
Numerical modeling of pedestal stability and broadband turbulence of wide-pedestal QH-mode plasmas on DIII-D Z Li, X Chen, CM Muscatello, KH Burrell, X Xu, B Zhu, R Hong, ... Nuclear Fusion 62 (7), 076033, 2022 | 4 | 2022 |
Multigrid treatment of implicit continuum diffusion M Francisquez, B Zhu, BN Rogers Computer Physics Communications 236 (3), 104-117, 2019 | 4 | 2019 |
Pair plasma instability in homogeneous magnetic guide fields MJ Pueschel, RD Sydora, PW Terry, B Tyburska-Pueschel, M Francisquez, ... Physics of Plasmas 27 (10), 2020 | 3 | 2020 |
Corrigendum: Thermal dynamics in the flux-coordinate independent turbulence code GRILLIX W Zholobenko, A Stegmeir, T Body, A Ross, P Manz, O Maj, D Coster, ... Contributions to Plasma Physics 60 (LLNL-JRNL-820527), 2020 | 3 | 2020 |