The ERO code was modified for modeling of plasma–surface interactions and impurities transport in the PSI-2 installation. Results of experiments on tungsten target irradiation with argon plasma were taken as a benchmark for the new version of the code. Spectroscopy data modeled with the code are in good agreement with experimental ones. Main factors contributing to observed discrepancies are discussed
The low-impact-energy range of the data set used by the 3D Monte Carlo impurity transport code ERO h...
Thermonuclear fusion of deuterium (D) and tritium (T) has the potential to be an efficient, sustaina...
In order to obtain a better understanding of tungsten (W) transport processes, we are developing the...
Series of experiments on tungsten (W) erosion and transport in Argon (Ar) plasma were conducted at t...
The simulations for linear devices using the 3D Monte-Carlo code ERO have a number of particularitie...
The simulations for linear devices using the 3D Monte-Carlo code ERO have a number of particularitie...
The Monte Carlo code ERO simulates the three-dimensional transport of impurity particles in a backgr...
International audienceThe contamination of core plasma by high-Z impurities, especially tungsten (W)...
The simulations for linear devices using the 3D Monte-Carlo code ERO have a number of particularitie...
Tungsten migration in the open divertor region in the Large Helical Device is analyzed for validatin...
The WEST experiment is currently operating with tungsten plasma-facing components and testing ITER-l...
The prediction of the first wall deterioration and possible plasma contamination by impurities is a ...
The first simulations of tungsten migration in WEST are performed with the SolEdge2D-EIRENE and ERO2...
The ERO-TEXTOR code is described in detail. The code solves the kinetic equations of impurities in t...
The average tungsten concentrations in the pedestal region (cW) predicted by the Monte Carlo code DI...
The low-impact-energy range of the data set used by the 3D Monte Carlo impurity transport code ERO h...
Thermonuclear fusion of deuterium (D) and tritium (T) has the potential to be an efficient, sustaina...
In order to obtain a better understanding of tungsten (W) transport processes, we are developing the...
Series of experiments on tungsten (W) erosion and transport in Argon (Ar) plasma were conducted at t...
The simulations for linear devices using the 3D Monte-Carlo code ERO have a number of particularitie...
The simulations for linear devices using the 3D Monte-Carlo code ERO have a number of particularitie...
The Monte Carlo code ERO simulates the three-dimensional transport of impurity particles in a backgr...
International audienceThe contamination of core plasma by high-Z impurities, especially tungsten (W)...
The simulations for linear devices using the 3D Monte-Carlo code ERO have a number of particularitie...
Tungsten migration in the open divertor region in the Large Helical Device is analyzed for validatin...
The WEST experiment is currently operating with tungsten plasma-facing components and testing ITER-l...
The prediction of the first wall deterioration and possible plasma contamination by impurities is a ...
The first simulations of tungsten migration in WEST are performed with the SolEdge2D-EIRENE and ERO2...
The ERO-TEXTOR code is described in detail. The code solves the kinetic equations of impurities in t...
The average tungsten concentrations in the pedestal region (cW) predicted by the Monte Carlo code DI...
The low-impact-energy range of the data set used by the 3D Monte Carlo impurity transport code ERO h...
Thermonuclear fusion of deuterium (D) and tritium (T) has the potential to be an efficient, sustaina...
In order to obtain a better understanding of tungsten (W) transport processes, we are developing the...