EUV lithography patterning using multi-trigger resist

Popescu, Carmen; O'Callaghan, Greg; McClelland, Alexander; Storey, Catherine E.; Roth, John R.; Jackson, Ed A.; Robinson, Alex P. G.

doi:10.1117/12.2658456

Advances in Patterning Materials and Processes XL 2023

DOI: 10.1117/12.2658456

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EUV lithography patterning using multi-trigger resist

Carmen Popescu¹,

Greg O'Callaghan²,

Alexander McClelland³

et al.

Abstract: Research and development of EUV photoresists capable of supporting future requirements such as high-NA EUV continues. It is foreseen that, to contend with much higher photon-shot noise, resists will require high EUV absorbance to offset the need for thin films in high-NA, where depth of focus may be less than 20nm. We are developing a photoresist based on the multi-trigger concept, which seeks to suppress roughness using a new photoresist mechanism, and which is based on molecular rather than polymeric materia… Show more

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Multi-Trigger Resist for EUV lithography

Popescu,

O'Callaghan,

Storey

et al. 2023

J. Photopol. Sci. Technol.

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Irresistible Materials (IM) is developing a photoresist based on the multi-trigger concept, which is designed to suppress roughness using a new photoresist mechanism incorporating a dose dependent quenching-like behaviour, and which is based on high EUV absorbance molecular, rather than polymeric, materials to maximise resolution. The latest results using the NXE Scanner are discussed here. The second generation (MTR Gen 2) of MTR incorporates more optimised crosslinker and photoacid generator molecules to tune the reaction rates in the multi-trigger mechanism. We have shown that the dose requirement compared to the first generation (MTR Gen1) of high opacity MTR resists previously presented can be significantly reduced without detriment to LWR or resolution. Lines and Spaces at p28 nm can be patterned at doses from 20 mJ/cm 2 to 50 mJ/cm 2 dependent on formulation ratio, with optimum LWR (3.95 nm, biased) occurring at 32 mJ/cm 2 , CD 12.1nm, in a MTR Gen2.4 formulation. Similarly, we present p34 & p36 pillars patterned between 20 mJ/cm 2 and 60 mJ/cm 2 doses for 17 nm diameter pillars, with a minimum LCDU for 18 nm diameter p36 pillars of 3.6 nm at 45 mJ/cm 2 (MTR Gen2.4).

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Multi-Trigger Resist for EUV lithography

Popescu,

O'Callaghan,

Storey

et al. 2023

J. Photopol. Sci. Technol.

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show abstract

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EUV lithography patterning using multi-trigger resist

Cited by 1 publication

References 19 publications

Multi-Trigger Resist for EUV lithography

Multi-Trigger Resist for EUV lithography

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