Abstract
In this paper, we investigate the basic characteristics of "magnetron sputtering plasma" using the target V2O5. The "magnetron sputtering plasma" is produced using "radio frequency (RF)" power supply and Argon gas. The intensity of the light emission from atoms and radicals in the plasma measured by using "optical emission spectrophotometer", and the appeared peaks in all patterns match the standard lines from NIST database and employed are to estimate the plasma parameters, of computes electron temperature and the electrons density. The characteristics of V2O5 sputtering plasma at multiple discharge provisos are studied at the "radio frequency" (RF) power ranging from 75 - 150 Watt and gas pressure (0.03, 0.05 and 0.007) torr. One can observe that the intensity of the emission lines increases with increasing the sputtering power. We find that the electron temperature excess drastically from 0.95 eV to 1.11eV when the emptying gas pressure excess from 0.03 to 0.05 Torr. On other hand excess electron temperature from 0.9 to 1.01 eV with increasing sputtering power from 100 to 125 Watt, while the electron density decrease from 5.9×1014 to 4.5×1014 cm-3 with increasing sputtering power. and electron density decrease with increasing of pressure from 4.25×1014 to 2.80×1014 cm-3, But the electron density maximum values 5.9×1014 at pressure 0.03 Torr.
Highlights
IntroductionThe use of plasma for "material deposition"
The use of plasma for "material deposition"is vastly used in industrial process and technology, "Magnetron sputtering" is the anymore lower-class for thin films deposition [1]
In this study, the influence of working pressure and radio frequency" (RF) power on the plasma characterization is investigated for sputtering the V2O5 target
Summary
The use of plasma for "material deposition". Is vastly used in industrial process and technology, "Magnetron sputtering" is the anymore lower-class for thin films deposition [1]. Noble gases are generally used to generate the plasma because they are inactive. Plasmas are properties by exogenous parameters such as radio frequency input power, pedestal siding, gas and pressure, flow rate. Anyway, saving these exogenous parameters does not retrofit adequate knowledge of the sputtering practicality. The film construct and accretions ratio, is provided by achieving the internal plasma parameters. Many diagnostic techniques are used to show properties plasma such as "Langmuir probe", optical emitting spectroscopy (OES) and "mass spectrometry" [2]
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