Characteristics of high aspect ratio SiO₂ etching using C₄H₂F₆ isomers

The present work used three C₄H₂F₆ isomers (hexafluoroisobutylene [C₄H₂F₆ - iso], (Z)-1,1,1,4,4,4-hexafluoro-2-butene [C₄H₂F₆ - z], and cis-1,1,2,2,3,4-hexafluorocyclobutane [C₄H₂F₆ - cyclo]) having the same chemical composition but different molecular structures, different components, and different global warming potentials (GWPs) to investigate the characteristics of plasmas and etch characteristics of SiO₂ masked with an amorphous carbon layer (ACL). The different structures in the C₄H₂F₆ isomers showed different fluorocarbon-based species (CF, CHF, CF₂, CHF₂, and CF₃) and atomic species (H and F) in the plasma, therefore resulting in different characteristics of remaining fluorocarbon polymer on the sample surfaces after the etching and dielectric etch characteristics. Cyclic structured C₄H₂F₆ showed a lower dissociation of molecules compared to the linear molecular structured C₄H₂F₆, thus leading to differences in the concentration and species of high mass ions in the plasma and different etch profiles. These differences in plasma and etching characteristics among C₄H₂F₆ isomers decreased in response to an increase in oxygen flow rate, which was attributed to a higher dissociation of isomer molecules by oxygen. Therefore, by controlling the oxygen flow rate, and using a low F/C ratio of C₄H₂F₆ isomers, extremely selective SiO₂ etching over the ACL mask can be applied to next-generation HARC etching.