In-Situ Investigation of Temperature and Bias Dependent Effects on the Oxide Growth of Si and Ge in an ECR Plasma
Abstract
The electron cyclotron resonance, ECR, plasma oxidation of Si and Ge was investigated using in-situ spectroscopic ellipsometry at substrate temperatures of 80 to 400 deg C and at bias voltages of -30 to +60 V. A study of the oxide growth kinetics by ECR plasma oxidation results in three distinct regions of growth with the first two being linear and the last parabolic. At the earliest linear stage the rate of oxide growth is the fastest, and corresponds to around 3 nm film thickness which is not dependent on bias. Following this, the second linear region displays an oxide growth rate proportional to the bias with typical growth rates, of 0.10, 0.32 and 0.60 nm/min for 0, +30 and +60V, respectively, at 300 deg C. The third region displays parabolic kinetics and corresponds to the Cabrera-Mott, C-M, theory for the oxidation by charged species in the limit of a low electric field. Activation energies of 0.19 and 0. 28 eV are obtained using the C-M model for the ECR plasma oxidation of Si and Ge, respectively.... Oxide growth, Plasma.
Document Details
- Document Type
- Technical Report
- Publication Date
- May 04, 1993
- Accession Number
- ADA265240
Entities
People
- Eugene A. Irene
- J. Joseph
- Min Li
- Y. Q. Wang
- Y. Z. Hu
Organizations
- University of North Carolina at Chapel Hill