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Intrinsic toroidal rotation driven by turbulent and neoclassical processes in tokamak plasmas from global gyrokinetic simulations
Rights:
Creative Commons Attribution 4.0 International
(CC BY)
Cite as:
Zhu, Hongxuan, Stoltzfus-Dueck, T., Hager, R., Ku, S., & Chang, C. S. (2024). Intrinsic toroidal rotation driven by turbulent and neoclassical processes in tokamak plasmas from global gyrokinetic simulations [Data set]. Princeton University, Princeton Plasma Physics Lab. https://doi.org/10.34770/n4n1-1g10
@electronic{zhu_hongxuan_2024, author = {Zhu, Hongxuan and Stoltzfus-Dueck, T. and Hager, R. and Ku, S. and Chang, C. S.}, title = {{Intrinsic toroidal rotation driven by tu rbulent and neoclassical processes in to kamak plasmas from global gyrokinetic si mulations}}, publisher = {{Princeton University, Princeton Plasma P hysics Lab}}, year = 2024, url = {https://doi.org/10.34770/n4n1-1g10} }
Description:
Digital data for the paper "Intrinsic toroidal rotation driven by turbulent and neoclassical processes in tokamak plasmas from global gyrokinetic simulations". More details can be found in README.txt.
Zhu, Hongxuan (Princeton University) Stoltzfus-Dueck, T. (Princeton Plasma Physics Laboratory) Hager, R. (Princeton Plasma Physics Laboratory) Ku, S. (Princeton Plasma Physics Laboratory) Chang, C. S. (Princeton Plasma Physics Laboratory)