Add to ORKGThe Advanced Toroidal Facility (ATF) vacuum vessel and its internal components have been conditioned for plasma operation by baking, discharge cleaning with hydrogen and helium, and gettering with chromium and titanium. The plasma-facing surface of ATF consists mainly of stainless steel with some graphite; the outgassing area is dominated by the graphite because of its open porosity. Since this situation is somewhat different from that in other fusion plasma experiments, in which a single material dominates both the outgassing area and the plasma-facing area, different cleaning and conditioning techniques are required. The situation was aggravated by air leaks in the vacuum vessel, presumably resulting from baking and from vibration during ...
The LLL 2xIIB experiment is briefly described. The vacuum system uses mercury diffusion pumps and ti...
Prehandling and discharge cleaning methods applied in toroidal magnetic systems with metallic walls ...
The DIII-D National Fusion Facility at General Atomics focuses on plasma physics and fusion energy s...
A variety of conditioning techniques have been applied to tokamaks to control low Z impurities origi...
The main features and operating characteristics of the primary vacuum system of many of the presentl...
Introduction: It is important to decrease light and heavy impurities influxes towards the plasma vol...
A new plasma fusion experiment, the Wendelstein 7-X (W7-X) has been built in the Max-Planck Institut...
Achieving high vacuum integrity in fusion devices requires close attention to both the overall syste...
A review is given of glow discharge techniques which are useful for conditioning vacuum vessels for ...
Inter-machine studies of wall conditioning with the ICRF discharges have been performed in the limit...
The influence of a number of parameters on the cleaning and preconditioning efficiency of a combined...
The initial phase wall conditioning in KSTAR is depicted. The KSTAR wall conditioning procedure cons...
In order to achieve high performance plasma discharges in the DIII-D magnetic fusion tokamak, impuri...
One main problem for the use of the controlled fusion as possible energy source for the future is th...
Controlling the recycling of hydrogen and the release of impurities from the plasma facing component...
The LLL 2xIIB experiment is briefly described. The vacuum system uses mercury diffusion pumps and ti...
Prehandling and discharge cleaning methods applied in toroidal magnetic systems with metallic walls ...
The DIII-D National Fusion Facility at General Atomics focuses on plasma physics and fusion energy s...
A variety of conditioning techniques have been applied to tokamaks to control low Z impurities origi...
The main features and operating characteristics of the primary vacuum system of many of the presentl...
Introduction: It is important to decrease light and heavy impurities influxes towards the plasma vol...
A new plasma fusion experiment, the Wendelstein 7-X (W7-X) has been built in the Max-Planck Institut...
Achieving high vacuum integrity in fusion devices requires close attention to both the overall syste...
A review is given of glow discharge techniques which are useful for conditioning vacuum vessels for ...
Inter-machine studies of wall conditioning with the ICRF discharges have been performed in the limit...
The influence of a number of parameters on the cleaning and preconditioning efficiency of a combined...
The initial phase wall conditioning in KSTAR is depicted. The KSTAR wall conditioning procedure cons...
In order to achieve high performance plasma discharges in the DIII-D magnetic fusion tokamak, impuri...
One main problem for the use of the controlled fusion as possible energy source for the future is th...
Controlling the recycling of hydrogen and the release of impurities from the plasma facing component...
The LLL 2xIIB experiment is briefly described. The vacuum system uses mercury diffusion pumps and ti...
Prehandling and discharge cleaning methods applied in toroidal magnetic systems with metallic walls ...
The DIII-D National Fusion Facility at General Atomics focuses on plasma physics and fusion energy s...