Resist process optimization for a DUV laser pattern generator

Fosshaug, Hans; Bajramovic, Adisa; Karlsson, Johan; Xing, Kezhao; Rosendahl, Anna; Dahlberg, Anna; Bjoernberg, Charles; Bjuggren, Mans; Sandstrom, Tor

doi:10.1117/12.518058

Cited by 5 publications

(6 citation statements)

References 4 publications

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“…We also found that commercially coated blanks are rather insensitive to PEB temperature variations. Earlier investigations using in-house coated blanks [1] showed larger dependence on PEB temperature with respect to the final lithographic performance. Thus for optimal process performance, PEB conditions can not be considered separately from post-apply bake.…”

Section: Discussionmentioning

confidence: 97%

“…Based on previous work [1] Table 1 is from the moment the resist surface reaches the setpoint temperature (after 4 minutes) until end of bake. For the process window evaluation, the dose range used was 70-130% (10% steps) and the focus range was ±0.4µm (0.1µm steps).…”

Section: Experimental Conditionsmentioning

confidence: 99%

“…The lithographic performance of advanced chemically amplified resists (CAR) is to large degree determined by control of the acid diffusion and acid quencher (base). The photoacid diffusion and the influence of the baking steps post-apply bake (PAB) and PEB on diffusion phenomena has been well documented [1][2][3][4]. Higher post apply bake temperatures lead to reduction of remaining solvent inside the resist film thus densification of the resist film and thereby a reduction of acid mobility.…”

Section: Introductionmentioning

confidence: 97%

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Managing effects in CD control from PED and PEB in advanced DUV photomask manufacturing using FEP-171 resist

et al. 2005

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A continuing improvement in resist process is a necessity for high-end photomask fabrication. In advanced chemically amplified resist systems the lithographic performance is strongly influenced by diffusion of acid and acid quencher (i.e. bases). Beside the resist properties, e.g. size and volatility of the photoacid, the process conditions play important roles for the diffusion control. Understanding and managing these properties influences lithographic characteristics on the photomask such as CD uniformity, CD and pitch linearity, resolution, substrate contamination, clear-dark bias and iso-dense bias. In this paper we have investigated effects on the lithographic characteristics with respect to post exposure bake conditions, when using the chemically amplified resist FEP-171. We used commercially available mask blanks from the Hoya Mask Blank Division with NTAR7 chrome and an optimized resist thickness for the 248 nm laser tool at 3200Å. The photomasks were exposed on the optical DUV (248nm) Sigma7300 pattern generator.Additionally, we investigated the image stability between exposure and post exposure bake. Unlike in wafer fabrication, photomask writing requires several hours, making the resist susceptible to image blur and acid latent image degradation.

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Section: Discussionmentioning

confidence: 97%

Section: Experimental Conditionsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 97%

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Managing effects in CD control from PED and PEB in advanced DUV photomask manufacturing using FEP-171 resist

et al. 2005

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“…Category Paper title Conference [1] Resist screening and PAB/PEB tuning In Part One of this paper the development process for binary masks is fine tuned one step further with respect to lithographic performance on mask, especially CD linearity and clear-field/dark-field variation. Design of Experiment (DOE) was used to generate a new fine tuned development recipe.…”

Section: Refmentioning

confidence: 99%

“…The recent introduction of high-productivity DUV laser mask writers has been facilitated by a relatively straight forward adaptability to the standard materials and processes used for 50 keV VSB. This adaptation has been described for binary masks in a series of papers [1][2][3] for the SLM-based DUV (248 nm) Sigma7300 mask writer [4][5], papers that have also suggested possible optimizations of the materials and processes for the Sigma7300. An overview of the Sigma7300 process papers is found in Table 1.…”

Section: Introductionmentioning

confidence: 97%

High performance FEP-171 resist process in combination with NTAR7 and NTAR5 chrome and the Sigma7300 DUV mask writer

et al. 2005

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FEP-171 resist is commonly used both together with 50 keV VSB and DUV laser mask writers. To improve resolution and other lithographic parameters, the industry has strived towards thinner resist and absorber films on the mask blank. The chrome thickness and etch resistance limit how thin the resist can be. The NTAR7 (730Å) chrome was optimized for binary masks for 193 nm lithography, while NTAR5 (590Å) chrome is used for attenuated PSM blanks with a MoSi absorber beneath the chrome film.Resolution and lithographic performance can be improved further by integrating improved processes, including PEB, development and dry-etch. Micronic has in a series of papers described improvements to the FEP-171 process in combination with different chrome films and the SLM-based DUV (248 nm) Sigma7300 mask writer. The thickness of FEP-171 for Sigma7300 has been optimized for NTAR7 chrome and improvements have been described for the PEB and dry-etch process of the FEP-171/NTAR7 blanks.In this paper we describe the FEP-171 process development further. We have investigated improvements to the develop process for FEP-171/NTAR7 blanks using Design of Experiments (DOE) and a Steag Hamatech ASP-5000. Improved performance on mask, especially for CD linearity and clear-field/dark-field deviation, was achieved using the resulting development recipe together with the Sigma7300. Better than 5 nm (range) CD linearity in chrome was demonstrated for isolated spaces in the range 200-1400 nm.This work also covers a process study of FEP-171 on NTAR5 chrome. The resist thickness was optimized to 3200Å for the Sigma7300 and the performance was tested in terms of resolution, resist profile, CD linearity and CD uniformity. Resolution of 120 nm isolated lines and 140 nm isolated spaces was demonstrated, as well as 4 nm (range/2) global CD uniformity.

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Influence of writing strategy on CD control for the spatial-light-modulator-based Sigma7300 DUV laser pattern generator

et al. 2004

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Resist process optimization for a DUV laser pattern generator

Cited by 5 publications

References 4 publications

Managing effects in CD control from PED and PEB in advanced DUV photomask manufacturing using FEP-171 resist

Managing effects in CD control from PED and PEB in advanced DUV photomask manufacturing using FEP-171 resist

High performance FEP-171 resist process in combination with NTAR7 and NTAR5 chrome and the Sigma7300 DUV mask writer

Influence of writing strategy on CD control for the spatial-light-modulator-based Sigma7300 DUV laser pattern generator

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