Title :
Cooperative Merging of Atmospheric Pressure Plasma Jet Arrays
Author :
O´Connor, Noel ; Humphreys, Hilary ; Daniels, Stephen
Author_Institution :
Nat. Centre for Plasma Sci. & Technol., Dublin City Univ., Dublin, Ireland
Abstract :
Scaling of large area atmospheric pressure plasma jet arrays remains a key challenge due to electrical and hydrodynamical coupling between individual plasma jets. Here, we present a novel means by which to obtain a large-volume large-surface-area atmospheric plasma jet array in helium. The individual jets of the plasma jet array are confined to expand in a secondary jet tube. The secondary jet tube assists the individual jets in mixing to form a single large-volume large-surface-area plasma jet on a downstream substrate. It is envisaged that the present system will facilitate more homogeneous treatment of large surface areas in both surface treatment and plasma medicine applications.
Keywords :
helium; mixing; plasma chemistry; plasma confinement; plasma jets; plasma pressure; surface treatment; He; atmospheric pressure; downstream substrate; electrical coupling; helium; homogeneous treatment; hydrodynamical coupling; large-volume large-surface area atmospheric plasma jet array; mixing; plasma medicine application; pressure 1 atm; secondary jet tube; surface treatment; Electron tubes; Glass; Helium; Merging; Plasmas; Substrates; Surface treatment; Atmospheric pressure plasmas; plasma devices; plasma interaction; plasma jet;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2014.2301734
