For a next-step fusion device the erosion at the vessel walls during normal operation caused by the bombardment with different species from the plasma is estimated. The wall fluxes are calculated for a given `burning' plasma with the computer code B2-EIRENE. With the known sputtering yields the erosion rates for vessel walls made out of Be, C, Fe, Mo or W, are calculated. The erosion by ions is found to be of the same order of magnitude as the erosion by energetic neutrals. The erosion has minima around the area of gas feed and maxima close by and at the bottom near the baffles of the divertor. The calculated total erosion is of the order of 10²¹ to 10²² atom/s for low Z materials, and a factor 10–20 lower for hi...
In fusion research the interaction of the plasma with the Walls is one of the critical issues. On th...
The issue of first wall and divertor target lifetime represents one of the greatest challenges facin...
Erosion losses of plasma-facing materials in a tokamak reactor during major disruptions, giant ELMS,...
For a next-step fusion device the erosion at the vessel walls during normal operation caused by the ...
In high temperature plasma experiments several processes contribute to erosion and loss of material ...
Charge-exchange interactions between plasma ions and neutrals, recycling from the first wall of a fu...
Processes of erosion and redeposition and their impact on plasma facing materials in devices for mag...
In a fusion reactor a significant fraction of plasma particles lost from the confined volume will re...
The erosion of ferrous- and nickel-alloy walls in fusion reactors from impinging, energetic D, T, He...
An overview of erosion and deposition processes in fusion machines is presented. The underlying phys...
An overview of erosion and deposition processes in fusion machines is presented. The underlying phys...
This paper gives an overview about erosion and deposition processes in fusion machines. The underlyi...
Material erosion and deposition on the divertor and vessel walls of W7-XM. Mayera,*, M. Baldena, S. ...
Controlled thermonuclear fusion may become an attractive future electrical power source. The most pr...
Metallic materials such as tungsten and beryllium are candidates for the design of the plasma facing...
In fusion research the interaction of the plasma with the Walls is one of the critical issues. On th...
The issue of first wall and divertor target lifetime represents one of the greatest challenges facin...
Erosion losses of plasma-facing materials in a tokamak reactor during major disruptions, giant ELMS,...
For a next-step fusion device the erosion at the vessel walls during normal operation caused by the ...
In high temperature plasma experiments several processes contribute to erosion and loss of material ...
Charge-exchange interactions between plasma ions and neutrals, recycling from the first wall of a fu...
Processes of erosion and redeposition and their impact on plasma facing materials in devices for mag...
In a fusion reactor a significant fraction of plasma particles lost from the confined volume will re...
The erosion of ferrous- and nickel-alloy walls in fusion reactors from impinging, energetic D, T, He...
An overview of erosion and deposition processes in fusion machines is presented. The underlying phys...
An overview of erosion and deposition processes in fusion machines is presented. The underlying phys...
This paper gives an overview about erosion and deposition processes in fusion machines. The underlyi...
Material erosion and deposition on the divertor and vessel walls of W7-XM. Mayera,*, M. Baldena, S. ...
Controlled thermonuclear fusion may become an attractive future electrical power source. The most pr...
Metallic materials such as tungsten and beryllium are candidates for the design of the plasma facing...
In fusion research the interaction of the plasma with the Walls is one of the critical issues. On th...
The issue of first wall and divertor target lifetime represents one of the greatest challenges facin...
Erosion losses of plasma-facing materials in a tokamak reactor during major disruptions, giant ELMS,...