Reactive Ion Etching of SiC Thin Films by Mixtures of Fluorinated Gases and Oxygen
Abstract
Reactive ion etching (RIE) of SiC thin films has been investigated in depth in a variety of fluorinated gas plasmas, such as SF6, CBrF3 and CHF3 mixed with oxygen. The optical emission spectrum of the RF plasma and the plasma- induced DC bias were monitored to explore the etching mechanisms. Argon actinometry has been used to convert the plasma emission intensity to relative concentration of plasma species in order to more accurately quantify the etching process. Plasma conditions, such as composition of gas mixture, pressure, power were investigated in order to achieve selective SiC-to Si etching and anisotropic patterning of SiC thin films. A carbon-rich surface on the etched SiC films was found for all gases. The SiC etching mechanism in fluorinated gases was deduced from loading experiments, surface analysis and other etching phenomena. Evidence of the chemical reaction between carbon and oxygen is presented. No evidence of chemical reaction between fluorine and carbon has been observed. A combined chemical and physical etching mode, supported by experiments, is suggested. A carbon blocking mechanism is proposed to understand the etching profile in all etching gases. Keywords: Reactive ion etching; SiC; Fluorinated Gas Plasma; EtchRate.
Document Details
- Document Type
- Technical Report
- Publication Date
- Jan 01, 1989
- Accession Number
- ADA211046
Entities
People
- A. J. Steckl
- W. S. Pan
Organizations
- University of Cincinnati