Add to ORKGThis paper gives an overview of the research activities at TEXTOR on impurity production, impurity transport through the plasma, and then deposition. First, laboratory experiments on chemical erosion by hydrogen and oxygen and radiation-enhanced sublimation are described, followed by the main part, which concentrates on the TEXTOR data of impurity release, impurity transport, and redeposition. The differences between the behavior of high-Z and low-Z materials are discussed. Many of the TEXTOR experiments are carried out using special limiter locks, but the overall carbon balance of net erosion sources and net deposition zones are also shown. Finally, modeling of erosion and dedicated transport experiments are addressed
A new method for the determination of massive erosion and deposition on plasma facing components has...
Long term erosion/deposition at the plasma facing surfaces as well as the carbon transport to the re...
A new method for the determination of massive erosion and deposition on plasma facing components...
This paper gives an overview of the research activities at TEXTOR on impurity production, impurity t...
Pioneering experiments to study local erosion and deposition processes have been carried out in TEXT...
Better understanding the processes of wall erosion and deposition remains an important issue also fo...
This paper presents ERO-TEXTOR simulation calculations of chemical erosion of a carbon limiter expos...
This paper aims at understanding the main processes responsible for the erosion/deposition pattern o...
This paper reviews the erosion properties of high-Z plasma facing materials due to the bombardme...
In order to maintain the thermo-mechanical durability of ITER it is proposed to castellate the inter...
Impurity production, hydrogen recycling and power deposition on carbon and tungsten limiters have be...
Carbon and single crystal silicon passive deposition probes were used to measure the characteristics...
Carbon sources and the sinks have been quantified in TEXTOR and are discussed in terms of short and ...
Results of a new dedicated experiment addressing the problem of impurity deposition at the bottom in...
Plasma-facing components (PFCs) in ITER will be castellated by splitting them into small-size blocks...
A new method for the determination of massive erosion and deposition on plasma facing components has...
Long term erosion/deposition at the plasma facing surfaces as well as the carbon transport to the re...
A new method for the determination of massive erosion and deposition on plasma facing components...
This paper gives an overview of the research activities at TEXTOR on impurity production, impurity t...
Pioneering experiments to study local erosion and deposition processes have been carried out in TEXT...
Better understanding the processes of wall erosion and deposition remains an important issue also fo...
This paper presents ERO-TEXTOR simulation calculations of chemical erosion of a carbon limiter expos...
This paper aims at understanding the main processes responsible for the erosion/deposition pattern o...
This paper reviews the erosion properties of high-Z plasma facing materials due to the bombardme...
In order to maintain the thermo-mechanical durability of ITER it is proposed to castellate the inter...
Impurity production, hydrogen recycling and power deposition on carbon and tungsten limiters have be...
Carbon and single crystal silicon passive deposition probes were used to measure the characteristics...
Carbon sources and the sinks have been quantified in TEXTOR and are discussed in terms of short and ...
Results of a new dedicated experiment addressing the problem of impurity deposition at the bottom in...
Plasma-facing components (PFCs) in ITER will be castellated by splitting them into small-size blocks...
A new method for the determination of massive erosion and deposition on plasma facing components has...
Long term erosion/deposition at the plasma facing surfaces as well as the carbon transport to the re...
A new method for the determination of massive erosion and deposition on plasma facing components...