Epitaxial growth of Si1 - XGex alloys and Ge on Si(100) by electron-cyclotron-resonance Ar plasma chemical vapor deposition without substrate heating

Naofumi Ueno, Masao Sakuraba, Junichi Murota, Shigeo Sato

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9 Citations (Scopus)


By using electron-cyclotron-resonance (ECR) Ar-plasma chemical vapor deposition (CVD) without substrate heating, the epitaxial growth process of Si1 - xGex alloy and Ge films deposited directly on dilute-HF-treated Si(100) was investigated. From the reflection high energy electron diffraction patterns of the deposited Si1 - xGex alloy (x = 0.50, 0.75) and Ge films on Si(100), it is confirmed that epitaxial growth can be realized without substrate heating, and that crystallinity degradation at larger film thickness is observed. The X-ray diffraction peak of the epitaxial films reveals the existence of large compressive strain, which is induced by lattice matching with the Si(100) substrate at smaller film thicknesses, as well as strain relaxation behavior at larger film thicknesses. The Ge fraction of Si1 - xGex thin film is in good agreement with the normalized GeH4 partial pressure. The Si 1 - xGex deposition rate increases with an increase of GeH4 partial pressure. The GeH4 partial pressure dependence of partial deposition rates [(Si or Ge fraction) × (Si 1 - xGex thickness) / (deposition time)] shows that the Si partial deposition rate is slightly enhanced by the existence of Ge. From these results, it is proposed that the ECR-plasma CVD process can be utilized for Ge fraction control in highly-strained heterostructure formation of group IV semiconductors.

Original languageEnglish
Pages (from-to)31-35
Number of pages5
JournalThin Solid Films
Publication statusPublished - 2014 Apr 30


  • Epitaxial growth
  • Germanium
  • Heterostructure
  • Plasma chemical vapor deposition
  • Raman scattering spectroscopy
  • Silicon
  • Silicon-germanium alloy
  • X-ray diffraction

ASJC Scopus subject areas

  • Electronic, Optical and Magnetic Materials
  • Surfaces and Interfaces
  • Surfaces, Coatings and Films
  • Metals and Alloys
  • Materials Chemistry


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