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MPA-based pointing calibration for Q/V band LEO canted antennas. [PDF]
Sci RepRen P, Zhou G, Li X, Han J.
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Comparisons of Edge Pedestal Structure in Tokamak and Helical Systems
Comparisons of Edge Pedestal Structure in Tokamak and Helical Systems+4 more sources
Pedestal Structure during the High Density Edge Transport Barrier on CHS
Pedestal Structure during the High Density Edge Transport Barrier on CHSopenaire
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CFETR equilibrium with self-consistent pedestal structure
Fusion Engineering and Design, 2017Abstract The Chinese Fusion Engineering Test Reactor (CFETR), which aims to fill the gaps between the International Thermonuclear Experimental Reactor (ITER) and DEMO, is in the design stages. Plasma equilibrium is an important basis for tokamak plasma research.
Kai Li +5 more
semanticscholar +2 more sources
Pedestal structure in H-mode plasmas
Nuclear Fusion, 2014The present understanding of edge pedestal structure is reviewed. Pedestal plasma strongly affects fusion power and divertor heat load, and as such, characterization of the pedestal structure has significantly progressed. In high-confinement mode (H-mode) plasmas, the pedestal component plays the role of a boundary condition in determining the core ...
Hajime Urano
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Pedestal Structure without and with 3D Fields
Contributions to Plasma Physics, 2014AbstractAchieving high pedestal pressures in H(high)‐mode plasmas confined in tokamaks is critical for obtaining fusion burning plasmas in ITER. Recent characterizations of quasi‐equilibrium plasma parameter profiles in low collisionality H‐mode pedestals in the DIII‐D tokamak are briefly summarized.
J. Callen
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The Research of EAST Pedestal Structure and Preliminary Application
Plasma Science and Technology, 2016The pedestal characteristic is an important basis for high confinement mode (H-mode) research. Because of the finite spatial resolution of Thomson scattering (TS) diagnostic on Experimental Advanced Superconducting Tokamak (EAST), it is necessary to characterize the pedestal with a suitable functional form.
Wang Tengfei +5 more
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Resonant magnetic perturbation effects on pedestal structure and ELMs
Nuclear Fusion, 2012Abstract The plasma transport processes by which externally applied resonant magnetic field perturbations (RMPs) mitigate or suppress edge-localized modes (ELMs) in low-collisionality tokamak H-mode plasmas are explored. Experimental data from DIII-D indicates the dominant RMP-induced transport occurs at the pedestal top where electron ...
J. Callen +4 more
semanticscholar +2 more sources