Monte Carlo simulations of electron tunneling through a 3 nm gate oxide during etching of dense patterns of gate electrodes in uniform high-density plasmas reveal two current transients, which occur: (a) when the open area clears, and (b) when the polysilicon lines just become disconnected at the bottom of trenches. The first charging transient is fast (controlled by charging) and may be followed by a steady-state current which lasts until the lines get disconnected. The second charging transient lasts longer; the magnitude of the tunneling current generally decreases as the sloped polysilicon sidewalls become straighter. Most of the damage occurs at the edge gate when the open areas are covered by field oxide; however, the edge gate suffer...
Charging and topography evolution simulations during plasma etching of dense line-and-space patterns...
Simulations of charging and profile evolution during etching of high aspect ratio polysilicon gates ...
A comprehensive model predicting the effects of plasma-induced damage (PID) on parameter variations ...
Feature-scale charging simulations during gate electrode overetching in high-density plasmas reveal ...
Monte Carlo simulations of charging and profile evolution in patterned antenna structures during etc...
Charging and topography evolution simulations during plasma etching of high aspect ratio line-and...
The effect of the electron temperature (Te) on charging potentials that develop in trenches during p...
Numerical simulations of charging and profile evolution during gate electrode overetching in high de...
The differential charging of high-aspect-ratio dense structures during plasma etching is studied by ...
Surface charge dissipation on insulator surfaces can reduce local charging potentials thereby preven...
The effect of aspect ratio (depth/width) on charge buildup in trenches during plasma etching of poly...
We present a two-dimensional Monte Carlo simulation of profile evolution during the overetching step...
Monte Carlo simulations of charging and profile evolution during plasma etching reveal that the subs...
Monte Carlo simulations of pattern-dependent charging during interlevel dielectric (ILD) deposition ...
The ability to simulate feature charging was added to the 3D level set profile evolution simulator d...
Charging and topography evolution simulations during plasma etching of dense line-and-space patterns...
Simulations of charging and profile evolution during etching of high aspect ratio polysilicon gates ...
A comprehensive model predicting the effects of plasma-induced damage (PID) on parameter variations ...
Feature-scale charging simulations during gate electrode overetching in high-density plasmas reveal ...
Monte Carlo simulations of charging and profile evolution in patterned antenna structures during etc...
Charging and topography evolution simulations during plasma etching of high aspect ratio line-and...
The effect of the electron temperature (Te) on charging potentials that develop in trenches during p...
Numerical simulations of charging and profile evolution during gate electrode overetching in high de...
The differential charging of high-aspect-ratio dense structures during plasma etching is studied by ...
Surface charge dissipation on insulator surfaces can reduce local charging potentials thereby preven...
The effect of aspect ratio (depth/width) on charge buildup in trenches during plasma etching of poly...
We present a two-dimensional Monte Carlo simulation of profile evolution during the overetching step...
Monte Carlo simulations of charging and profile evolution during plasma etching reveal that the subs...
Monte Carlo simulations of pattern-dependent charging during interlevel dielectric (ILD) deposition ...
The ability to simulate feature charging was added to the 3D level set profile evolution simulator d...
Charging and topography evolution simulations during plasma etching of dense line-and-space patterns...
Simulations of charging and profile evolution during etching of high aspect ratio polysilicon gates ...
A comprehensive model predicting the effects of plasma-induced damage (PID) on parameter variations ...