Resolution-linewidth roughness-sensitivity performance tradeoffs for an extreme ultraviolet polymer bound photo-acid generator resist

Roel Gronheid; Alessandro Vaglio Pret; Benjamen M. Rathsack; Joshua S. Hooge; Steven A. Scheer; Kathleen Nafus; Hideo Shite; Junichi Kitano

doi:10.1117/1.3555090

1 January 2011 Resolution-linewidth roughness-sensitivity performance tradeoffs for an extreme ultraviolet polymer bound photo-acid generator resist

Roel Gronheid, Alessandro Vaglio Pret, Benjamen M. Rathsack, Joshua S. Hooge, Steven A. Scheer, Kathleen Nafus, Hideo Shite, Junichi Kitano

Author Affiliations +

Journal of Micro/Nanolithography, MEMS, and MOEMS, Vol. 10, Issue 1, 013017 (January 2011). https://doi.org/10.1117/1.3555090

Abstract

The goal of this work is to use a combination of experiment and calibrated resist models to understand the impact of photo-acid generator (PAG) and sensitizer loading on the performance of a polymer bound PAG resist based processes for extreme ultraviolet (EUV) lithography. This paper describes construction of a chemically amplified resist model across 248 nm, 193 nm, and EUV imaging wavelengths. Using resist absorbance input as obtained from experiment and modeling, only the acid formation kinetics are allowed to vary across imaging wavelengths. This constraining system affords very good fitting results, which provides high confidence that the extracted parameters from the model have actual physical significance. The quantum efficiency for acid formation in EUV is found to be ∼8× higher than at 248 or 193 nm, due to the excitation mechanism by secondary electrons. Most notably for the polymer bound PAG system under study the model provides an extremely low acid diffusion length (∼8 nm), suggesting an excellent inherent resolution for this material. Next, resist models are created for a series of sensitizer containing polymer bound PAG formulations, where the sensitizer loading is systematically varied. Compared to the reference polymer bound PAG resist without sensitizer the efficiency of acid formation is significantly increased, without a negative impact on either resolution or linewidth roughness. For these materials the quantum efficiency of acid formation in EUV is found to be ∼12× higher than at 248 nm. In these formulations the impact of sensitizer loading on the sizing dose is found to be rather moderate. This may suggest that even at the lowest sensitizer loading studied the energy of the secondary electrons is already efficiently transferred to the PAGs.

©(2011) Society of Photo-Optical Instrumentation Engineers (SPIE)

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Roel Gronheid, Alessandro Vaglio Pret, Benjamen M. Rathsack, Joshua S. Hooge, Steven A. Scheer, Kathleen Nafus, Hideo Shite, and Junichi Kitano "Resolution-linewidth roughness-sensitivity performance tradeoffs for an extreme ultraviolet polymer bound photo-acid generator resist," Journal of Micro/Nanolithography, MEMS, and MOEMS 10(1), 013017 (1 January 2011). https://doi.org/10.1117/1.3555090

Published: 1 January 2011

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