Add to ORKGIn the Materials Science Department of IPP processes of the plasma surface interaction in fusion devices are investigated. In this article, experiments in the device MAJESTIX are reported. This device is devoted to the investigation of microscopic processes relevant to the interaction of hydrogen, hydrocarbon radicals, and ions with carbon surfaces. These processes are of particular importance in plasma surface interaction in fusion devices. Der Bereich Materialforschung des IPP untersucht Prozesse der Plasma-Wand-Wechselwirkung in Fusionsanlagen. In diesem Bericht werden Experimente in der Apparatur MAJESTIX dargestellt. Mit ihr werden mikroskopische Prozesse untersucht, die bei der Wechselwirkung von Wasserstoff, Kohlenwasserstoffradikale...
The growing field of applications of plasma as deposition, etching, surface modification and chemica...
Abstract. Plasma edge physics is one of the major challenges in fusion plasmas. The need for power a...
The Max Planck Institute for Plasma Physics (IPP) works on the basic principles of a future fusion p...
In the Materials Science Department of IPP processes of the plasma surface interaction in fusion dev...
The interaction between plasmas and surfaces play an important role in both low-temperature (industr...
Changing composition and structure of the near surface region of wall materials in fusion devices ca...
In this work, various aspects of fundamental physics and chemistry of molecular gas discharges are p...
In next generation magnetic fusion devices such as ITER, plasma-facing materials are exposed to unpr...
In next generation magnetic fusion devices such as ITER, plasma-facing materials are exposed to unpr...
Kohlenstoff ist als Wandmaterial für zukünftige Fusionsreaktoren geplant und wird in derzeitigen Anl...
Abstract. The compatibility of reactor grade plasmas with plasma facing materials at the first wall ...
Abstract. The growing field of applications of plasma as deposition, etching, surface modification a...
Numerical modelling and experimental measurements are used to investigate hydrogen plasmas in the MA...
Reactive plasma interactions with hydrocarbon-based surfaces play a critical role in future biologic...
The decreasing availability of energy and concern about climate change necessitate the development o...
The growing field of applications of plasma as deposition, etching, surface modification and chemica...
Abstract. Plasma edge physics is one of the major challenges in fusion plasmas. The need for power a...
The Max Planck Institute for Plasma Physics (IPP) works on the basic principles of a future fusion p...
In the Materials Science Department of IPP processes of the plasma surface interaction in fusion dev...
The interaction between plasmas and surfaces play an important role in both low-temperature (industr...
Changing composition and structure of the near surface region of wall materials in fusion devices ca...
In this work, various aspects of fundamental physics and chemistry of molecular gas discharges are p...
In next generation magnetic fusion devices such as ITER, plasma-facing materials are exposed to unpr...
In next generation magnetic fusion devices such as ITER, plasma-facing materials are exposed to unpr...
Kohlenstoff ist als Wandmaterial für zukünftige Fusionsreaktoren geplant und wird in derzeitigen Anl...
Abstract. The compatibility of reactor grade plasmas with plasma facing materials at the first wall ...
Abstract. The growing field of applications of plasma as deposition, etching, surface modification a...
Numerical modelling and experimental measurements are used to investigate hydrogen plasmas in the MA...
Reactive plasma interactions with hydrocarbon-based surfaces play a critical role in future biologic...
The decreasing availability of energy and concern about climate change necessitate the development o...
The growing field of applications of plasma as deposition, etching, surface modification and chemica...
Abstract. Plasma edge physics is one of the major challenges in fusion plasmas. The need for power a...
The Max Planck Institute for Plasma Physics (IPP) works on the basic principles of a future fusion p...