Add to ORKGThe DIII-D National Fusion Facility at General Atomics focuses on plasma physics and fusion energy science. The DIII-D tokamak is a 35 m{sup 3} toroidal vacuum vessel with over 200 ports for diagnostic instrumentation, cryogenics, microwave heating, and four large neutral beam injectors. Maintaining vacuum in the 10{sup {minus}8} Torr range is crucial for producing high performance plasma discharges. He leak checking the DIII-D tokamak and the neutral beamlines has historically been difficult. D{sub 2} is used as the fuel gas in most plasma discharges and neutral beams. After plasma operations, D{sub 2} out-gassing from the torus walls and internal beamline components can exceed 10{sup {minus}4} std cc/s. The mass of the D{sub 2} molecule (...
The DIII-D research program is aimed at developing the scientific basis for advanced modes of operat...
The DIII-D tokamak research program is managed by General Atomics (GA) for the US Department of Ener...
The detection limit for helium (He) partial pressure monitoring via the Penning discharge optical em...
In hydrogen-fueled tokamak discharges, the distribution of molecular hydrogen (or deuterium) in the ...
DIII-D is making significant contributions to a scientific basis for sustained burning plasma operat...
Methods for detecting imminent disruptions and mitigating disruption effects using massive injection...
The DIII-D national fusion research program focuses on establishing the scientific basis for optimiz...
Improvements to the DIII-D tokamak have led to significant new research results and enhanced perform...
The Divertor Materials Evaluation System (DiMES) at General Atomics has successfully advanced the un...
The Radiative Divertor Program of DIII-D is in its final phase with the installation of the cryopump...
The LLL 2xIIB experiment is briefly described. The vacuum system uses mercury diffusion pumps and ti...
In order to achieve high performance plasma discharges in the DIII-D magnetic fusion tokamak, impuri...
The DIII-D tokamak research program is carried out by, General Atomics (GA) for the U.S. Department ...
The authors present a comparison of the wall deuterium retention and plasma fueling requirements of ...
Significant progress in the development of burning plasma scenarios, steady-state scenarios at high ...
The DIII-D research program is aimed at developing the scientific basis for advanced modes of operat...
The DIII-D tokamak research program is managed by General Atomics (GA) for the US Department of Ener...
The detection limit for helium (He) partial pressure monitoring via the Penning discharge optical em...
In hydrogen-fueled tokamak discharges, the distribution of molecular hydrogen (or deuterium) in the ...
DIII-D is making significant contributions to a scientific basis for sustained burning plasma operat...
Methods for detecting imminent disruptions and mitigating disruption effects using massive injection...
The DIII-D national fusion research program focuses on establishing the scientific basis for optimiz...
Improvements to the DIII-D tokamak have led to significant new research results and enhanced perform...
The Divertor Materials Evaluation System (DiMES) at General Atomics has successfully advanced the un...
The Radiative Divertor Program of DIII-D is in its final phase with the installation of the cryopump...
The LLL 2xIIB experiment is briefly described. The vacuum system uses mercury diffusion pumps and ti...
In order to achieve high performance plasma discharges in the DIII-D magnetic fusion tokamak, impuri...
The DIII-D tokamak research program is carried out by, General Atomics (GA) for the U.S. Department ...
The authors present a comparison of the wall deuterium retention and plasma fueling requirements of ...
Significant progress in the development of burning plasma scenarios, steady-state scenarios at high ...
The DIII-D research program is aimed at developing the scientific basis for advanced modes of operat...
The DIII-D tokamak research program is managed by General Atomics (GA) for the US Department of Ener...
The detection limit for helium (He) partial pressure monitoring via the Penning discharge optical em...