DUV laser lithography for photomask fabrication

Jackson, Curt; Buck, Peter; Cohen, Sarah L.; Garg, Vishal; Howard, Charles D. D.; Kiefer, Robert; Manfredo, John; Tsou, James

doi:10.1117/12.534575

Cited by 4 publications

(6 citation statements)

References 2 publications

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“…Additionally, linearity data observed here was similar to another established PEK130 DUV process at one of AMTC's partner companies. 5 Contact linearity was not measured in this evaluation.…”

Section: Linearitymentioning

confidence: 95%

“…These trends contrast those from another established PEK130 DUV process at one of AMTC's partner companies, yet average CD deviation ranges for these feature types were similar between these two processes. 5 The largest CD deviations usually occurred at the lowest (<25%) and highest (>75%) local loads and both feature types had smaller CD deviations between 13 and 88% loading. Average CD deviation ranges for isolated lines on all test pattern #2 masks decreased more than 50% from 10.5nm over the entire local loading range to 5.1nm within the 13-88% range (likewise 9.5nm decreased to 7.7nm for dense spaces).…”

Section: Loading Effectsmentioning

confidence: 97%

“…Despite these higher than expected CDU results, ranges for all feature types in test pattern #2 masks from Figure 3.21 were very similar to test masks results on another established PEK130 DUV process at one of AMTC's partner companies. 5 Furthermore, several 130nm node logic product masks exposed at DUV with PEK130, met all chrome CD specifications after develop on the TEL alpha develop tool.…”

Section: Uniformity (Cdu)mentioning

confidence: 99%

“…Test pattern #2 was a different array of die covering 108x126mm, each with a fill pattern and CD cell, yet each die could vary in local load, allowing CD observations as a function of local load. 5 Several DRAM and logic product masks were also processed on the TEL alpha develop tool and examined for CDU and defect performance as part of this evaluation.…”

Section: Experimental Strategymentioning

confidence: 99%

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Evaluation of a new-generation photomask develop system for CAR

et al. 2004

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A new photomask develop tool designed by Tokyo Electron Limited (TEL) with wafer puddle technology was evaluated at the Advanced Mask Technology Center (AMTC) in Dresden, Germany. Parameters selected for this evaluation were resist dark loss uniformity, critical dimension (CD) uniformity, loading, linearity, resist cross sectional images, and defects using chemically amplified resists (CARs) exposed with DUV (λ=257nm) and 50KeV e-beam pattern generators. Implementing wafer puddle technology to photomask developing was not a simple, straightforward process. Standard CAR puddle recipes for wafer developing were inadequate to match CDU requirements for photomasks at the 130nm technology node using DUV exposure. While the results were disappointing, the TEL alpha develop tool cannot be held entirely responsible. Other, non-develop tool related factors such as resist, substrate, coating bake temperature and time, lithography tool, and post exposure bake temperature and time, all contributed to the final post develop results. Indeed, other CAR/substrate combinations exposed at 50keV e-beam and processed on the TEL alpha develop tool were markedly better in CD performance when compared to DUV results. The AMTC has recently taken delivery of a full scale, production worthy, TEL photomask develop tool for use at future technology nodes.

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Section: Linearitymentioning

confidence: 95%

Section: Loading Effectsmentioning

confidence: 97%

Section: Uniformity (Cdu)mentioning

confidence: 99%

Section: Experimental Strategymentioning

confidence: 99%

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Evaluation of a new-generation photomask develop system for CAR

et al. 2004

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“…Corner Pull Back, Area Percentile, the percentage of pattern area to retangle area (P/R ratio) and etc. 1,3,4,5 . In our study we used Area Loss as the metric of contact hole quality.…”

Section: Quantification Of Contact Hole Qualitymentioning

confidence: 98%

Pattern fidelity enhancement with OPC pattern generation on laser lithography

Lee¹,

Chung²,

Yang³

et al. 2006

SPIE Proceedings

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Laser pattern generators ALTA 3500 and 3700 are widely used for 0.18 micron and above technology nodes in photomask manufacturing. They have low butting, high throughput and high position accuracy, with some weaknesses such as, corner rounding, no proximity effect correction and poor CD linearity when compared to E-beam pattern generators. Optical Proximity Correction (OPC) software was thus created to extend the productivity of laser pattern generators. For contact holes serifs are typically added at the four corners to enhance pattern fidelity. However, the serifs or scattering bars can significantly increase the data size. In our study, we generated serifs for contact holes but applied different exposure strategies: (1) lumping serifs together with the main pattern; (2) exposing serifs and main pattern separately with same dosage; (3) exposing serifs and main pattern separately with different dosages. We examined the results of each approach in terms of contact hole quality, throughput, and inspection results.

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Nanofabrication by Photons

Cui¹

2008

Nanofabrication

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DUV laser lithography for photomask fabrication

Cited by 4 publications

References 2 publications

Evaluation of a new-generation photomask develop system for CAR

Evaluation of a new-generation photomask develop system for CAR

Pattern fidelity enhancement with OPC pattern generation on laser lithography

Nanofabrication by Photons

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