Add to ORKGWall conditioning in DIII-D is one of the most important factors in achieving reproducible high confinement discharges. For example, the very high confinement mode (VH-mode) was only discovered after boronization, a CVD technique to deposit a thin boron film over the entire surface of the tokamak. In order to evaluate wall conditions and provide a data base to correlate these wall conditions with tokamak discharge performance, a series of nominally identical reference VH-mode discharges (1.6 MA, 2.1 T, double-null diverted) were taken at various times during a series of experimental campaigns with evolving wall conditions. These reference discharges have allowed a quantitative determination of how the wall conditions have evolved. For insta...
The authors' data indicate that the L-mode to H-mode transition in the DIII-D tokamak is associated ...
After the final shut-down of the tokamak TEXTOR, all of its machine parts became accessible for comp...
Many tokamaks achieve optimum plasma performance by achieving low recycling; various wall conditioni...
The authors present a comparison of the wall deuterium retention and plasma fueling requirements of ...
High performance plasmas, including both hybrid and advanced tokamak (AT) bench-mark discharges, wer...
Significant progress in obtaining high performance discharges lasting many energy confinement times ...
Controlling the recycling of hydrogen and the release of impurities from the plasma facing component...
A variety of conditioning techniques have been applied to tokamaks to control low Z impurities origi...
DIII-D is making significant contributions to a scientific basis for sustained burning plasma operat...
Improvements to the DIII-D tokamak have led to significant new research results and enhanced perform...
Hydrogen- and deuterium-fueled glow discharges are used for the initial conditioning of magnetic fus...
In magnetically confined fusion plasmas a strong nonlinear connection exists between the processes o...
Cette thèse est consacrée à l'étude du conditionnement des parois des réacteurs de fusion, en partic...
Recent MHD calculations predict that, for a plasma with sufficient rotation, a resistive wall can pr...
A major portion of the research program of the DIII-D tokamak collaboration is devoted to the develo...
The authors' data indicate that the L-mode to H-mode transition in the DIII-D tokamak is associated ...
After the final shut-down of the tokamak TEXTOR, all of its machine parts became accessible for comp...
Many tokamaks achieve optimum plasma performance by achieving low recycling; various wall conditioni...
The authors present a comparison of the wall deuterium retention and plasma fueling requirements of ...
High performance plasmas, including both hybrid and advanced tokamak (AT) bench-mark discharges, wer...
Significant progress in obtaining high performance discharges lasting many energy confinement times ...
Controlling the recycling of hydrogen and the release of impurities from the plasma facing component...
A variety of conditioning techniques have been applied to tokamaks to control low Z impurities origi...
DIII-D is making significant contributions to a scientific basis for sustained burning plasma operat...
Improvements to the DIII-D tokamak have led to significant new research results and enhanced perform...
Hydrogen- and deuterium-fueled glow discharges are used for the initial conditioning of magnetic fus...
In magnetically confined fusion plasmas a strong nonlinear connection exists between the processes o...
Cette thèse est consacrée à l'étude du conditionnement des parois des réacteurs de fusion, en partic...
Recent MHD calculations predict that, for a plasma with sufficient rotation, a resistive wall can pr...
A major portion of the research program of the DIII-D tokamak collaboration is devoted to the develo...
The authors' data indicate that the L-mode to H-mode transition in the DIII-D tokamak is associated ...
After the final shut-down of the tokamak TEXTOR, all of its machine parts became accessible for comp...
Many tokamaks achieve optimum plasma performance by achieving low recycling; various wall conditioni...