Excimer laser-assisted etching of polysilicon at 193 nm

Abstract

Excimer laser-assisted etching of polysilicon at 193 nm was studied in the presence of CF₃Br, CF₂Cl₂, and NF₃. In the presence of 193 nm radiation, CF₃Br showed some propensity to etch polysilicon, while CF₂Cl₂did not show any appreciable etching. In the presence of NF₃, maximum etch rates of 0.6 Å/pulse were obtained for pressures greater than 500 Torr and fluences exceeding 200 mJ/(cm²pulse). The etch rate increased with both fluences and pressure to a limiting value of 0.6 Å/pulse. An adsorptive etch mechanism was proposed, where NF₃molecules diffuse to the surface, adsorb, and then react after absorbing laser radiation. Thermal effects enhance this process and appear to dominate at lower pressures (3at 193 nm. Etching of submicron profiles in polysilicon was also examined. Polysilicon samples masked by patterned SiO₂were exposed to NF₃and 193 nm ArF radiation. Subsequent scanning electron microscopy (SEM) analysis demonstrated directional etching with some surface roughening.