The etching mechanism of titanium polycide in a mixture of SF6 and O2

Abstract: Reactive ion etching of titanium disilicide films on top of undoped polycrystalline silicon has been investigated in order to determine the etching mechanism of the silicide in a fluorine plasma. Mixtures of SF6 and O2 and of CF4 and O2 were used. Vertical and lateral etch rates have been determined as a function of pressure and the amount of oxygen addition. The density of fluorine atoms and positive ions in the plasma has been determined from optical emission spectroscopy and electric probe measurements, res… Show more

“…[10] SO 2 F 2 is a decomposition product [11] in the SF 6 /O 2 plasma which may greatly increase etching anisotropy. [12] In spite of the importance of these molecules, the total cross sections for electron scattering from these molecules (except SO 2 ) are relatively scarce; there is no experimental total cross section for electron scattering to our knowledge, and the theoretical total cross sections have only been calculated recently in a range from 10 eV to 2000 eV. [4] The total cross section measurements for electron scattering from SO 2 were made first by Szmytkowski and Maciag [13] in an energy range from 1.5 eV to 70 eV.…”

Total cross sections for electron scattering from sulfur compounds

“…[10] SO 2 F 2 is a decomposition product [11] in the SF 6 /O 2 plasma which may greatly increase etching anisotropy. [12] In spite of the importance of these molecules, the total cross sections for electron scattering from these molecules (except SO 2 ) are relatively scarce; there is no experimental total cross section for electron scattering to our knowledge, and the theoretical total cross sections have only been calculated recently in a range from 10 eV to 2000 eV. [4] The total cross section measurements for electron scattering from SO 2 were made first by Szmytkowski and Maciag [13] in an energy range from 1.5 eV to 70 eV.…”

Total cross sections for electron scattering from sulfur compounds

Wet and Dry Etching Materials

Untitled