Photo by mbrunacr from unsplash
Varying atomic ratios in compound semiconductors is well known to have large effects on the etching properties of the material. The use of thin device barrier layers, down to 25 nm,… Click to show full abstract
Varying atomic ratios in compound semiconductors is well known to have large effects on the etching properties of the material. The use of thin device barrier layers, down to 25 nm, adds to the fabrication complexity by requiring precise control over etch rates and surface morphology. The effects of bias power and gas ratio of BCl3 to Cl2 for inductively coupled plasma etching of high Al content AlGaN were contrasted with AlN in this study for etch rate, selectivity, and surface morphology. Etch rates were greatly affected by both bias power and gas chemistry. The authors detail the effects of small variations in Al composition for AlGaN and show substantial changes in the etch rate with regard to bias power as compared to AlN.
Journal Title: Journal of Vacuum Science and Technology
Year Published: 2017
Link to full text (if available)
Share on Social Media: Sign Up to like & get
recommendations!