Resist Resolution Enhancement and Line-end Shortening Simulation - PowerPoint PPT Presentation

1 / 9
About This Presentation
Title:

Resist Resolution Enhancement and Line-end Shortening Simulation

Description:

Title: Introduction Author: yongsik Last modified by: Costas J. Spanos Created Date: 4/10/1998 5:16:05 AM Document presentation format: On-screen Show – PowerPoint PPT presentation

Number of Views:37
Avg rating:3.0/5.0
Slides: 10
Provided by: yong88
Category:

less

Transcript and Presenter's Notes

Title: Resist Resolution Enhancement and Line-end Shortening Simulation


1
Resist Resolution Enhancement and Line-end
Shortening Simulation
SFR Workshop May 24, 2001 Mosong Cheng, Andrew
Neureuther Berkeley, CA
2001 GOAL to investigate the impact of
electric-field-enhanced post exposure baking on
resist profile validate resist/lens
aberration-based line-end shortening model by
9/30/2001.
2
Motivation
  • Line-End-Shortening becomes worse as device
    dimensions shrink to sub-100nm regime.
  • Sources for Degradation of Pattern Fidelity
  • Resist solution to short wavelength lithography
  • Mask error
  • Substrate reflection
  • Recording media, in particular, undesirable acid
    diffusion/activation of resist
  • Resist parameters vary from fab to fab
  • Lens aberrations vary across field and from tool
    to tool

3
ArF Imaging Modeling by Using Resist Simulation
and Pattern Matching
Mask Pattern
Imaging/Resist Simulator
Resist Profile
Differential
Resist Parameter Tuner
SEM Picture
  • Optimizer is standard. The challenge is to build
    SEM/SIM comparator

4
SEM/SIM Comparator
Contrast, Bright, Smooth, Edge
-
Moving window, threshold
5
Aerial Image Simulation vs. Post Exposure Baking
Simulation
0.2mm
0mm
0.2mm
6
Simulation Performance vs. Modeling Complexity
(170nm)
7
Predictability of Models (120nm)
Imaging Model lt Base PEB Model lt Tuned PEB Model
8
Electric-Field-Enhanced Post Exposure Bake
  • Electric-Field-Assisted Top Surface Imaging a
    potential solution of resist to enable
    short-wavelength lithography. Generate acid at
    the resist surface, induce reaction in bulk
    resist by EFE-PEB.
  • EFE-PEB applied to optical exposure

Resist
E
photoacid
9
2002 and 2003 Goals
Investigate the impacts of the applied electric
field polarity, frequency and magnitude on post
exposure bake on e-beam and DUV exposure tools by
9/30/2002. Complete the resist/lens
aberrations-based line-end shortening model and
validate the simulation in 248nm and 193nm
lithography by 9/30/2002. Enable 3D EM simulation
of substrate topography effects by 9/30/2002.
Optimize the electric-field-enhanced post
exposure baking process by 9/30/2003.
Write a Comment
User Comments (0)
About PowerShow.com