- - - Department of Physics, Faculty of Science, Arak University
- - - Department of Physics, Faculty of Science, Arak University
- - - Laser and plasma Research Institute, Shahid Beheshti University (SBU)
- - - Laser and plasma Research Institute, Shahid Beheshti University (SBU)

AbstractIn this study, the influences of variations in the gas flow rate and incidence angles of argon cold atmospheric-pressure plasma jet on the morphology and absorption spectra of silver thin films (۶۰ nm, ۸۰ nm, and ۱۰۰ nm film thickness) are investigated. To evaluate the surface morphology, atomic force microscopy (AFM) was employed on the silver thin film surface before and after plasma processing. To analyze the effect of plasma treatment on the grain size, the one-dimensional AFM surface profiles of Ag thin films are approximated using a Gaussian function. The absorbance of Ag thin films is measured in wavelength range of ۱۹۰–۱۱۰۰ nm utilizing UV–Vis absorption spectrometer. Compared to the gas flow rates ۰.۵ standard litter per minute (SLM) and ۲ SLM, surface treatment of Ag thin film with gas flow rate of ۱ SLM increased the valley depth, the peak valley height, and the distance between two deepest valleys remarkably. A sequential argon plasma treatment (۲-min plasma treatment perpendicular to surface was followed by ۲-min plasma processing with non-perpendicular incidence angle of ۶۰°) offers considerable improvement in the uniformity of grains and also changes shape of grains, especially the peak height (about ۴۴ times higher than untreated sample) and area of grains (almost ۱۳۶ times greater than untreated sample) which can be applicable for optical sensing technology.

Non, perpendicular incidence angle of argon cold atmospheric, pressure plasma jet (APPJ), Gas flow rate, Absorption spectra, Surface morphology, Analysis of silver grain size, Gaussian function