Dry etching technology for 1-µm VLSI fabrication

Abstract

A dry etching technology for 1-µm VLSI has been developed. This technology led to successful fabrication of a 1-µm 256-kbit MOS RAM using electon-beam direct writing and molybdenum-polysilicon double-gate structure. Silicon nitride, silicon dioxide, phosphosilicate glass, polysilicon, single-crystal silicon, molybdenum, and aluminum are etched by parallel-plate RF diode reactors. Resist patterns are used as etching masks. The negative resist is CMS and the positive resist is FPM. Plasma polymerization is found to have significant effect on etching selectivity, undercutting, and residue. Directional etching profiles are realized and 1-µm patterns with less than 0.05-µm undercutting are obtained. High etching selectivities are achieved. Methods for preventing and removing contamination as well as damage are established. With these, dry etching proves to bring no adverse effects on device characteristics. Pattern-width fluctuations caused by negative-resist pattern foot are decreased to below 0.1 µm by a new foot trimming technique. Resist step coverage is also clarified.