<title>Plasma etching of high-temperature-deposited AlSiCu for submicron ULSI manufacturing</title>

Abstract: To achieve good step coverage for submicron contacts/vias, many approaches have been taken in recent years in VLSI production. While CVD tungsten plug is widely implemented in US for submicron manufacturing, planarized aluminum plug (i.e. high temperature aluminum deposition) is slowly emerging for its process simplicity and low wafer cost. In this paper, we will present the plasma etching studies on the high-temperature-deposited AISiCu (or hot aluminum) and its application in manufacturing of ULSICs' with O.… Show more

“…Although profile microoading effect should be under control, the etch rate microloading effect could be quite serious if the etching process condition is not optimized [1]. Etch rate microloading effect causes the decrease of etch rate with decreasing pattern size and open area [2,3].…”

Effects of process parameters on microloading in subhalf-micron aluminum etching

“…Although profile microoading effect should be under control, the etch rate microloading effect could be quite serious if the etching process condition is not optimized [1]. Etch rate microloading effect causes the decrease of etch rate with decreasing pattern size and open area [2,3].…”

Effects of process parameters on microloading in subhalf-micron aluminum etching

Reactive ion etching of metal stack consisting of an aluminium alloy, WGex, barrier and Ti adhesion layer