Add time:09/01/2019 Source:sciencedirect.com
Features of plasma chemistry as well as peculiarities of etching mechanisms for Si and SiO2 in the HBr + Cl2 + O2 gas mixture with variable HBr/O2 mixing ratio were investigated using a combination of experimental and theoretical approaches. Plasma diagnostics by Langmuir probe and 0-dimensional (global) plasma modeling provided the information on gas-phase plasma parameters, formation/decay kinetics of plasma active species and the steady-state plasma composition. It was found that the substitution of HBr for O2 at constant Cl2 fraction in a feed gas 1) leads to a weak increase in electron density, ion density and the ion energy flux; 2) influences the kinetics of neutral species through reactions involving O atoms and their reaction products; and 3) results in increasing total halogen atom density. It was shown also that the change in HBr/O2 mixing ratio causes the opposite behaviors of Si and SiO2 etching rates and lifts the SiO2/Si etching selectivity up to ∼10 in highly oxygenated plasmas. The analysis of Si and SiO2 etching kinetics with model-predicted fluxes of plasma active species indicated the different etching mechanisms for these materials.
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