2009
DOI: 10.1143/jjap.48.096001
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Effects of Mask Pattern Geometry on Plasma Etching Profiles

Abstract: Two-dimensional etching profile evolution in two different geometries, namely an axisymmetric hole and an infinitely long trench, has been simulated with the cellular algorithm, to clarify the effects of geometrically different structures on etching profile evolution. The simulation assumed SiO 2 etching using CF 4 plasmas, owing to the widely employed fluorocarbon plasmas for the fabrication of contact and via holes. Numerical results indicated that the two mask pattern geometries give some differences in pro… Show more

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Cited by 12 publications
(11 citation statements)
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“…There are many reasons why masks may not have the perfect geometry, as is often assumed in plasma simulations [ 40 ]. The physical model presented here, using top-down Monte Carlo ray tracing, is able to qualitatively reproduce and predict many phenomena observed in plasma etched profiles.…”
Section: Resultsmentioning
confidence: 99%
“…There are many reasons why masks may not have the perfect geometry, as is often assumed in plasma simulations [ 40 ]. The physical model presented here, using top-down Monte Carlo ray tracing, is able to qualitatively reproduce and predict many phenomena observed in plasma etched profiles.…”
Section: Resultsmentioning
confidence: 99%
“…In effect, the smoothing with increased Γ n 0 /Γ i 0 and T s is less significant for 2D ripples at θ i = 45°and 75°t han for 3D random roughness features at θ i = 0°, because the shadowing effects for neutrals are lower for 2D than for 3D features. [93][94][95] The smoothing with increased Γ n 0 /Γ i 0 and T s is also less significant at increased E i , where the increased directionality of incoming ion fluxes is assumed to increase the flux of ions directly incident on the bottom of roughness features that starves for neutrals, and thus to effectively lower the effects of neutral shadowing.…”
Section: B Similarity Between Reduced Ion Reflection and Enhanced Smmentioning
confidence: 99%
“…Etching applications in asymmetric features and features with high AR show problems with getting sufficient passivation of sidewalls and available etch reactants at the bottom of features. [15,16] This effect, known as RIE lag, ratio features. [17,18] This work investigates the problem of shrinking asymmetric holes uniformly, the physical limitations of depositing in shadowed features, and which plasma parameters can give the best results.…”
Section: Introductionmentioning
confidence: 99%
“…These fluorocarbon‐based plasmas could possibly be extended beyond sidewall preservation during etch to PAS processes. Etching applications in asymmetric features and features with high AR show problems with getting sufficient passivation of sidewalls and available etch reactants at the bottom of features . This effect, known as RIE lag, results in major difficulties for etching of high‐aspect ratio features .…”
Section: Introductionmentioning
confidence: 99%