Jh. Lee et al., STUDY OF SHALLOW SILICON TRENCH ETCH PROCESS USING PLANAR INDUCTIVELY-COUPLED PLASMAS, Journal of vacuum science & technology. A. Vacuum, surfaces, and films, 15(3), 1997, pp. 573-578
Citations number
17
Categorie Soggetti
Physics, Applied","Materials Science, Coatings & Films
Silicon shallow trenches applied to the shallow trench isolation of in
tegrated circuits were etched using planar inductively coupled Cl-2 an
d HBr/Cl-2 plasmas and the effects of process parameters such as gas c
ombination, inductive power, and bias voltage on etch rates, selectivi
ties, and etch profiles of silicon trenches were investigated. Also, t
he physical damages on the trench bottom and sidewall in Cl-2 and HBr/
Cl-2 plasmas were studied using cross-sectional high resolution transm
ission electron microscopy (HRTEM). The increase of inductive power an
d bias voltage in Cl-2 and HBr/Cl-2 plasmas increased polysilicon etch
rates in general, but reduced the etch selectivity over nitride. In c
ase of Cl-2 plasmas, low inductive power and high bias voltage showed
an anisotropic trench etch profile, and the addition of oxygen or nitr
ogen to chlorine also increased the etch anisotropy. The use of pure H
Br plasmas showed a positively angled etch profile and the addition of
Cl-2 to HBr improved the etch profile more vertically. HRTEM study sh
owed defects formed near the sidewall, bottom, and bottom edge of the
silicon trenches etched in Cl-2/N-2 plasmas, and more dense defects in
HBr/Cl-2 plasmas possibly due to the penetration of hydrogen in HBr.
No defects were found for the trenches etched in pure Cl-2 or Cl-2/O-2
plasmas. (C) 1997 American Vacuum Society.