Abstract
We have performed surface-induced dissociation studies of small deuterated hydrocarbon cations i.e. CDx+ with x=2-4, colliding with two types of tungsten-coated surfaces, in the incident energy range between Ein = 0 eV approximately, up to Ein = 100 eV. A 34 nm thick W layer deposited on stainless steel using the Thermionic Vacuum Arc (TVA) method and a small sample of a tile cut from ASDEX-Upgrade tiles, consisting of PlasmaSprayed (PS) tungsten on carbon, are exposed to ion flux in these experiments. A double-focussing reverse geometry BE mass spectrometer, is used under ultra high vacuum conditions. Mass spectra of secondary charged particles are recorded via time-of-flight mass analyser. For comparison, we have performed equivalent study on polished stainless steel under experimental status explained in Section 2 below. At very low energies i.e. below 10 eV, only surface reflected projectiles are seen, whereas most of them are neutralized by surface micro charges. We observed that the fragmentation pattern of the small molecular ions at a given energy is strongly dependent on the surface. The roughness of both of the said thin films and their reflectivity for the projectile ion beam is studied by analysis of the ion yields of the reaction products
Highlights
Ion-surface collisions experiments have been a good source of yielding essential data for future fusion reactors
Mass spectra of product ions resulting from the interactions of CD2+, CD3+ and Ar+ with PS tungsten surfaces and CD2+, CD3+ and CD4+ during the impact with Thermionic Vacuum Arc (TVA) tungsten films are measured on the double focussing mass spectrometer BESTOF
At an incident energy of 10 eV, we find that total ion yield of secondary ions is the highest for tungsten film deposited by thermionic vacuum arc method
Summary
Ion-surface collisions experiments have been a good source of yielding essential data for future fusion reactors. At the diverter and limiter regions of fusion devices, collisions of hypothermal plasma particles i.e. deuterium (D) or tritium (T) result physical processes like erosion. A systematic comparison is made between tungsten thin films deposited by TVA and PS, with the help of analytical study of surface-induced reactions with an emphasis on surface-induced dissociations. Base pressure in the collision chamber was about 10-9 Torr This pressure could increase to a maximum one order of magnitude while opening the said beam-line valve. Under these pressure conditions, it is obvious that the surface remained covered with hydrocarbons
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