Tungsten erosion at the central column and tungsten transport in the scrape-off layer of ASDEX Upgrade have been modeled with the 2D Monte-Carlo impurity transport code DIVIMP. The main objectives were the reproduction of the erosion and migration patterns that are observed experimentally. This was accomplished by implementing a new erosion routine which allows to calculate the tungsten source term at the central column and subsequently the poloidal distribution of the W density. First results on W transport in the boundary plasma as well as erosion and migration patterns of W are discussed in relation to different models of the plasma in front of the central column. A comparison between measured and modeled deposition of W in the divertor ...
In order to obtain a better understanding of tungsten (W) transport processes, we are developing the...
The erosion, transport and deposition of tungsten in the outer divertor of JET-ILW has been studied ...
Erosion reduction of tungsten (W) divertor target is one of the most important research subjects for...
Tungsten erosion at the central column and tungsten transport in the scrape-off layer of ASDEX Upgra...
In ASDEX Upgrade, tungsten was employed as plasma facing material at the central column heat shield ...
In ASDEX Upgrade tungsten is used as a high-Z plasma facing material. Its erosion, migration and sub...
In ASDEX Upgrade, tungsten is employed as plasma facing material at the central column of the plasma...
The first simulations of tungsten migration in WEST are performed with the SolEdge2D-EIRENE and ERO2...
We have modelled net and gross erosion of W in low-density l-mode plasmas in the low-field side stri...
Net erosion and deposition of tungsten (W) in the ASDEX Upgrade divertor were determined after the 2...
We have investigated net and gross erosion of W in the outer strike-point (OSP) region of ASDEX Upgr...
A toroidally symmetric tungsten ring inserted in the lower outer divertor of DIII-D was exposed to 2...
This study provides predictions of tungsten contamination extrapolated from an inter-edge localized ...
We have investigated net erosion and deposition of W and P92 steel in ASDEX Upgrade during its full-...
In order to obtain a better understanding of tungsten (W) transport processes, we are developing the...
The erosion, transport and deposition of tungsten in the outer divertor of JET-ILW has been studied ...
Erosion reduction of tungsten (W) divertor target is one of the most important research subjects for...
Tungsten erosion at the central column and tungsten transport in the scrape-off layer of ASDEX Upgra...
In ASDEX Upgrade, tungsten was employed as plasma facing material at the central column heat shield ...
In ASDEX Upgrade tungsten is used as a high-Z plasma facing material. Its erosion, migration and sub...
In ASDEX Upgrade, tungsten is employed as plasma facing material at the central column of the plasma...
The first simulations of tungsten migration in WEST are performed with the SolEdge2D-EIRENE and ERO2...
We have modelled net and gross erosion of W in low-density l-mode plasmas in the low-field side stri...
Net erosion and deposition of tungsten (W) in the ASDEX Upgrade divertor were determined after the 2...
We have investigated net and gross erosion of W in the outer strike-point (OSP) region of ASDEX Upgr...
A toroidally symmetric tungsten ring inserted in the lower outer divertor of DIII-D was exposed to 2...
This study provides predictions of tungsten contamination extrapolated from an inter-edge localized ...
We have investigated net erosion and deposition of W and P92 steel in ASDEX Upgrade during its full-...
In order to obtain a better understanding of tungsten (W) transport processes, we are developing the...
The erosion, transport and deposition of tungsten in the outer divertor of JET-ILW has been studied ...
Erosion reduction of tungsten (W) divertor target is one of the most important research subjects for...