TY - EJOUR
AU - Hassanpour, Davood
AU - Pestehe, Sayyed‑Jalal
PY - 2023
DA - November
TI - The effects of grounded electrode geometry on RF-driven cold atmospheric pressure plasma micro-jet
T2 - Journal of Theoretical and Applied Physics
VL - 14
L1 - https://oiccpress.com/journal-of-theoretical-and-applied-physics/article/the-effects-of-grounded-electrode-geometry-on-rf-driven-cold-atmospheric-pressure-plasma-micro-jet/
DO - 10.1007/s40094-020-00395-0
N2 - AbstractWith the argument that two-electrode DBD-like systems are much more operational than single-electrode systems in biomedical applications, targets sensitive to temperature and electric shock, the effects of parameters associated with the geometry of the grounded electrode such as its shape, size, and position it at the output of the atmospheric pressure RF plasma jet in two-electrode systems is investigated. By varying the position of the typical narrow ring grounded electrode on the dielectric tube toward the powered electrode, the ratio of the axial to radial electric field components depend on the externally applied potential to the plasma has been investigated and shown that the axial component of the electric field is maximized at certain position(s) of the grounded electrode. The analysis of the data indicates that there is an inverse relationship between the magnitude of the axial electric field in the plasma channel and the discharge ignition voltage, and a direct relationship with the plasma jet length. It is known that by increasing the width of the ground electrode until the full covering of dielectric, the jet length increases from the dielectric output to the neighborhood near the needle electrode, and reduces the discharge ignition threshold and consequently power consumption of the jet, but increasing its width to greater than the above values does not have a significant effect on jet output. It has also been shown that by tapering the dielectric end and fully covering it with its conical-shaped electrode, the output jet length increases and decreases its width.
IS - 4
PB - OICC Press
KW - Grounded electrode geometry, Jet length, Atmospheric pressure plasma jet, DBD, Like), Electrode shape 
EN -