Title :
Modification of plasma-etched profiles by sputtering
Author :
Abraham-Shrauner, Barbara ; Jagannathan, Nina
Author_Institution :
Dept. of Electr. Eng., Washington Univ., St. Louis, MO, USA
fDate :
6/1/1999 12:00:00 AM
Abstract :
Two-dimensional etch profiles are modeled for plasma etching. The etch rate dependence on the angle of incidence of the bombarding ions on the etched surface has a sputtering-type yield. The etch profile is advanced in time by an evolution equation for an etch rate proportional to the modified ion energy flux. Approximate analytical expressions for the etch rates are derived as a product of the etch rates in the absence of the sputtering-type yield and a weighting factor that depends on the angle the ion drift velocity makes with the normal to the wafer surface. The weighting factor is determined from experimental measurements of the angular dependence of ion beam etching by sputtering. These etch rates are valid when the ratio of the ion drift speed to the ion thermal speed is large compared to one. The etching is modeled in the ion flux-limited regime for simplicity. The modifications of the shape of etch profiles of a long rectangular trench and a waveguide structure or strip are treated
Keywords :
plasma materials processing; sputter etching; analytic etch rate; analytical expressions; bombarding ions; etch profile; etch rate dependence; etched surface; evolution equation; ion beam etching; ion drift speed; ion drift velocity; ion flux-limited regime; ion thermal speed; long rectangular trench; method of characteristics; modified ion energy flux; plasma etching; plasma processing; plasma-etched profiles; sputtering; sputtering-type yield; two-dimensional etch profiles; wafer surface; waveguide strip; waveguide structure; weighting factor; Electron mobility; Equations; Ion beams; Plasma applications; Rectangular waveguides; Semiconductor device modeling; Shape; Sputter etching; Sputtering; Strips;
Journal_Title :
Plasma Science, IEEE Transactions on
