Your search keyword '"Kwang Woo Choi"' showing total 2 results

1. Characterization of the latent image to developed image in model EUV photoresists

Author

Shuhui Kang, Michael J. Leeson, Kwang-Woo Choi, Christopher K. Ober, Nelson Felix, Vivek M. Prabhu, Anuja De Silva, Wen-Li Wu, John T. Woodward, and Kristopher A. Lavery

Subjects

Latent image, Materials science, business.industry, Extreme ultraviolet lithography, Photoresist, Characterization (materials science), law.invention, Optics, Resist, law, Extreme ultraviolet, Photolithography, business, Lithography

Abstract

Current extreme ultraviolet (EUV) photoresist materials do not yet meet performance requirements on exposure-dose sensitivity, line-width roughness, and resolution. In order to quantify how these trade-offs are related to the materials properties of the resist and processing conditions, advanced measurements and fundamental studies are required that consider EUV-resist specific problems. In this paper, we focus on the correlations between the latent image and developed image in EUV exposed line/space features. The latent images of isolated lines produced by EUV lithography are characterized by atomic force microscopy through the change in topology caused by change in film thickness that occurs upon deprotection. The resulting latent-image deprotection gradient (DGL), based on line cross-sections, and latent-image line-width roughness (LWRL) provide metrics and insight into ways to optimize the lithographic process. The results from a model poly(hydroxystyrene-co-tert-butylacrylate) resist and a model calix[4]resorcinarene molecular glass type resist show the general applicability of the metric before development.

Published

2008

2. A comparison of the reaction-diffusion kinetics between model-EUV polymer and molecular-glass photoresists

Author

Anuja De Silva, Shuhui Kang, Christopher K. Ober, Kristopher A. Lavery, Nelson Felix, Kwang-Woo Choi, Eric K. Lin, Vivek M. Prabhu, and Wen-Li Wu

Subjects

chemistry.chemical_classification, Latent image, Materials science, business.industry, Extreme ultraviolet lithography, Dispersity, Polymer, Photoresist, law.invention, Optics, chemistry, Resist, Chemical physics, law, Radius of gyration, Photolithography, business

Abstract

It has been recently postulated that sub-22 nm photolithography with polymeric photoresists has reached a materials design barrier due to its large molecular mass and distribution. In this argument, the "pixel" size, which is related to the smallest molecular unit, determines the feature fidelity and resolution of the lithographic process. This hypothesis remains unproven, but molecular glass photoresists can provide a test because they can share similar chemical functionality to polymer resists, but with low molecular mass and a monodisperse molecular mass distribution. The low molecular mass leads to the smaller pixel size compared to the radius of gyration of the polymer photoresist. In this work, we compare the deprotection reaction-diffusion kinetics of a common photoacid generator in a polymer and molecular glass resist with similar resist chemistry to elucidate effects of molecular architecture on photoresist performance. We determine the mechanism of reaction, photoacid trapping behavior, and diffusivity by measuring and comparing the reaction kinetics parameters as a function of temperature and exposure dose. These results permit an analysis of the latent image formation which is a crucial factor in resolution and line-edge roughness. Further, knowledge of the reaction-diffusion parameters of each type of resist provides a quantitative approach to predict line-space features, crucial for design for resolution-enhancement features.

Published

2008