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Investigation of the properties of diamond-like carbon thin films deposited by single and dual-mode plasma enhanced chemical vapor deposition
Authors:S.I. Hosseini  B. Shokri  M. Abbasi FirouzjahS. Kooshki  M. Sharifian
Affiliation:
  • a Shahid Beheshti University, G.C., Laser and Plasma Research Institute, Evin, Tehran, Iran
  • b Department of Physics, Shahrood University of Technology, 36155 Shahrood, Iran
  • c Shahid Beheshti University, G.C., Physics Department, Evin, Tehran, Iran
  • d Faculty of Physics, Science Department, Yazd University, P. O. Box 89195-741, Yazd, Iran
  • Abstract:In this study diamond-like carbon (DLC) films were deposited by a dual-mode (radio frequency/microwave) reactor. A mixture of hydrogen and methane was used for deposition of DLC films. The film structure, thickness, roughness, refractive index of the films and plasma elements were investigated as a function of the radio frequency (RF) and microwave (MW) power, gas ratio and substrate substance. It was shown that by increasing the H2 content, the refractive index grows to 2.63, the growth rate decreases to 10 (nm/min) and the surface roughness drops to 0.824 nm. Taking into consideration the RF power it was found that, as the power increases, the growth rate increases to 11.6 (nm/min), the variations of the refractive index and the roughness were continuously increasing, up to a certain limit of RF power. The Raman G-band peak position was less dependent on RF power for the glass substrate than that of the Si substrate and a converse tendency exists with increasing the hydrogen content. Adding MW plasma to the RF discharge (dual-mode) leads to an increase of the thickness and roughness of the films, which is attributed to the density enhancement of ions and radicals. Also, optical emission spectroscopy is used to study the plasma elements.
    Keywords:Plasma-enhanced chemical vapor deposition   Diamond-like carbon   Raman spectroscopy
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