Low-k SiOCH Film Etching Process and Its Diagnostics Employing Ar/C₅F₁₀O/N₂ Plasma

We proposed an environmental harmonic etching gas of C₅F₁₀O (CF₃CF₂CF₂OCFCF₂), and demonstrated the etching of low-k SiOCH films employing a dual-frequency capacitively coupled etching system. Dissociative ionization cross sections for the electron impact ionizations of C₅F₁₀O and c-C₄F₈ gases have been measured by quadrupole mass spectroscopy (QMS). The dissociative ionization cross section of CF₃⁺ from C₅F₁₀O gas was much higher than those of other ionic species, and 10 times higher than that of CF₃⁺ from C₄F₈ gas. CF₃⁺ is effective for increasing the etching rate of SiO₂. As a result, the etching rate of SiOCH films using Ar/C₅F₁₀O/N₂ plasma was about 1000 nm/min, which is much higher than that using Ar/C₄F₈/N₂ plasma. The behaviours of fluorocarbon radicals in Ar/C₅F₁₀O/N₂ plasma, which were measured by infrared diode laser absorption spectroscopy, were similar to those in Ar/C₄F₈/N₂ plasma. The densities of CF and CF₃ radicals were markedly decreased with increasing N₂ flow rate. Etching rate was controlled by N₂ flow rate. A vertical profile of SiOCH with a high etching rate and less microloading was realized using Ar/C₅F₁₀O/N₂ plasma chemistry.