Numerical study of capacitive coupled HBr/Cl2 plasma discharge for dry etch applications

HBr/Cl-2 plasma discharge is investigated to study the etchant chemistry of this discharge by using the self-consistent fluid model. A comprehensive set of gas phase reactions (83 reactions) including primary processes such as excitation, dissociation, and ionization are considered in the model along with 24 species. Our findings illustrate that the densities of neutral species (i.e., Br, HCl, Cl, H, and H-2) produced in the reactor are higher than charged species (i.e., Cl-2(+), Cl-, HBr+, and Cl+). Density profile of neutral and charged species followed bell shaped and double humped distributions, respectively. Increasing Cl-2 fraction in the feedback gases (HBr/Cl-2 from 90/10 to 10/90) promoted the production of Cl, Cl+, and Cl-2(+) in the plasma, indicating that chemical etching pathway may be preferred at high Cl-environment. These findings pave the way towards controlling/optimizing the Si-etching process. Published by AIP Publishing.