Specific Process Knowledge/Lithography/MiR: Difference between revisions

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*PEB temperature: 110°C
*PEB temperature: 110°C
*PEB time: 60 s
*PEB time: 60 s


During exposure, interaction between the incoming light and the light reflected by the substrate can cause a standing wave to form in the resist (especially true for single line/wavelength exposure). This leads to a wavy sidewall after development. The standing wave pattern can be removed by introducing a post-exposure bake before development, which allows the activated PAC to diffuse into unactivated regions, thus smoothing the sidewall. The recommended PEB for MiR is 60 s at 110°C (for a 1-2µm film). Thicker coatings may require longer bake, and substrate thickness and material, e.g glass, may also affect the required baking time.
During exposure, interaction between the incoming light and the light reflected by the substrate can cause a standing wave to form in the resist (especially true for single line/wavelength exposure). This leads to a wavy sidewall after development. The standing wave pattern can be removed by introducing a post-exposure bake before development, which allows the activated PAC to diffuse into unactivated regions, thus smoothing the sidewall. The recommended PEB for MiR is 60 s at 110°C (for a 1-2µm film). Thicker coatings may require longer bake, and substrate thickness and material, e.g glass, may also affect the required baking time.

Revision as of 15:09, 30 January 2023

Resist description

AZ MiR 701 is a positive UV photoresist. It is considered to have high selectivity for dry etching.

Spin coating

Spin curves for AZ MiR 701 (29 cps) using a 30 s spin-off, and a 60 s @ 90°C proximity softbake

Typical spin parameters:

  • Spin off: 30-60 s
  • Soft bake: 60 s @ 90°C in proximity


Exposure

Dehydration of resist film:
During exposure in the maskless aligners, MiR can be sensitive to dehydration by the air flow applied by the pneumatic auto-focus mechanism. This may lead to insufficient development, especially for small substrates. This problem can be alleviated by switching to the overview camera for a period of 1 minute before starting the exposure, or simply by parking the writehead away from the exposure location for 1 minute before starting the exposure.

The effect can also be reduced by increasing the soft bake.

Post-exposure bake

Typical PEB parameters:

  • PEB temperature: 110°C
  • PEB time: 60 s


During exposure, interaction between the incoming light and the light reflected by the substrate can cause a standing wave to form in the resist (especially true for single line/wavelength exposure). This leads to a wavy sidewall after development. The standing wave pattern can be removed by introducing a post-exposure bake before development, which allows the activated PAC to diffuse into unactivated regions, thus smoothing the sidewall. The recommended PEB for MiR is 60 s at 110°C (for a 1-2µm film). Thicker coatings may require longer bake, and substrate thickness and material, e.g glass, may also affect the required baking time.

Since the post-exposure bake is at an elevated temperature compared to the soft bake, it will cause the resist film to become 5-10% thinner (probably due to continued evaporation of solvent). A 1.5µm thick MiR resist film will be approximately 1.4µm after PEB.

Development

Development speed:

  • Puddle development in 2.38% TMAH (AZ 726 MIF): ~2 µm/min