Effects of process parameters on pattern-edge roughness of chemically amplified resists

Hui Peng Koh; Qunying Lin; Xiao Hu; Lap Hung Chan

doi:10.1117/12.388308

23 June 2000 Effects of process parameters on pattern-edge roughness of chemically amplified resists

Hui Peng Koh, Qunying Lin, Xiao Hu, Lap Hung Chan

Proceedings Volume 3999, Advances in Resist Technology and Processing XVII; (2000) https://doi.org/10.1117/12.388308
Event: Microlithography 2000, 2000, Santa Clara, CA, United States

Abstract

Line-edge roughness (LER) has been identified to cause variation in critical dimension that affects the fidelity of pattern transfer and results in greater variation in device electrical performance. In present study, the effects of aerial image quality and resist processing parameters on the severity of LER are studied. Two chemically amplified resists (CARs) with both acetal and ESCAP-type protection groups are tested and compared. It is found that the image-log-slope (ILS) at pattern edge and the resist contrast are the two major factors affecting the magnitude of LER. The ILS is alterable by pattern density, pattern width, defocus conditions and the application of PSM. On the other hand, the shape and slope of the contrast curve are dependent on both soft bake and post-exposure bake temperature. Due to the finite contrast of resist, solubility change occurs across some dose interval. This corresponds to a boundary width at the aerial image that dictates the transition zone across the pattern edge. As the boundary width region is associated with higher roughness film, smaller boundary width could be translated to better LER. Nevertheless, a three-step development model is used to explain the dependence of LER on pattern density. Basically the discrepancy is due to differential progress of the development front at different ILS when developing time is fixed. In addition, changing the shape and slope of the resist contrast curve through different processing routes could directly modify the boundary width and therefore the LER. The attributes causing different LER performances of the two resists are also discussed.

Citation Download Citation

Hui Peng Koh, Qunying Lin, Xiao Hu, and Lap Hung Chan "Effects of process parameters on pattern-edge roughness of chemically amplified resists", Proc. SPIE 3999, Advances in Resist Technology and Processing XVII, (23 June 2000); https://doi.org/10.1117/12.388308

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