Title :
Temporal Evolution of the Ion Fluxes for Various Elements in HIPIMS Plasma Discharge
Author :
Hecimovic, Ante ; Ehiasarian, Arutiun P.
Author_Institution :
Nanotechnol. Centre for PVD Res., Sheffield Hallam Univ., Sheffield, UK
fDate :
4/1/2011 12:00:00 AM
Abstract :
In our previously published paper, the life span of metal ions in high-power impulse magnetron sputtering (HIPIMS) discharges was measured up to 5 ms from the start of the pulse. To investigate the influence of the ion mass, ionization energy, and sputter yield on the time evolution and life span of singly and doubly charged metal and gas ions in the HIPIMS plasma discharge, the most frequently used materials for thin-film deposition carbon, aluminium, titanium, chromium, copper, and niobium have been used. The ion energy distribution function of each material was measured using energy resolved mass spectrometry in time-resolved mode. The setup of the mass spectrometer was the same for all materials. To investigate the influence of working gas pressure on the time evolution of ion fluxes, measurements have been performed at two pressures, 0.3 Pa and 3 Pa.
Keywords :
aluminium; carbon; chromium; copper; discharges (electric); ionisation; mass spectra; niobium; plasma diagnostics; plasma sources; plasma transport processes; sputtering; time resolved spectra; titanium; Al; C; Cr; Cu; Nb; Ti; doubly charged gas ion life span; doubly charged gas ion time evolution; doubly charged metal ion life span; doubly charged metal ion time evolution; energy resolved mass spectrometry; high-power impulse magnetron sputtering discharges; ion energy distribution function; ion flux temporal evolution; ion mass; ionization energy; mass spectrometer; pressure 0.3 Pa; pressure 3 Pa; singly charged gas ion life span; singly charged gas ion time evolution; singly charged metal ion life span; singly charged metal ion time evolution; sputter yield; time 5 ms; time-resolved mode; Argon; Discharges; Ions; Niobium; Plasma measurements; Plasmas; Plasma density; plasma properties; plasma transport processes;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2011.2106516
