Dr. Rik M. Jonckheere Profile

Dr. Rik M. Jonckheere

Senior Researcher Reticle Technology at imec

SPIE Involvement:

Conference Program Committee | Author

Publications (97)

Proceedings Article | 20 November 2024 Presentation + Paper

Novel metrology for mask degradation: IR-AFM, XPS depth profiling and HAXPES

Véronique de Rooij-Lohmann, Shriparna Mukherjee, Chien-Ching Wu, Rob Ebeling, Komal Pandey, Maarten van Es, Rik Jonckheere

Proceedings Volume 13216, 132160Y (2024) https://doi.org/10.1117/12.3032757

KEYWORDS: Annealing, X-ray photoelectron spectroscopy, Tantalum, Profiling, Reticles, Ruthenium, Extreme ultraviolet, Silicon, Molybdenum

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Proceedings Article | 10 April 2024 Presentation + Paper

EUV lithography: LER design, mask, and wafer impact

Jiahui Wang, Emily Gallagher, Jeroen Van de Kerkhove, Rik Jonckheere, Darko Trivkovic

Proceedings Volume 12953, 129530A (2024) https://doi.org/10.1117/12.3011038

KEYWORDS: Line edge roughness, Semiconducting wafers, Design, Tunable filters, Light sources and illumination, Extreme ultraviolet lithography, Scanning electron microscopy, Scanners, Optical filters, Image analysis

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Proceedings Article | 10 April 2024 Presentation + Paper

High-NA benefit assessment through Zeiss AIMS EUV for tip-to-tip patterning by EUVL

Rik Jonckheere, Tatiana Kovalevich, Vincent Wiaux, Vicky Philipsen, Eric Hendrickx, Andreas Verch, Maximillian Albert, Renzo Capelli

Proceedings Volume 12953, 1295304 (2024) https://doi.org/10.1117/12.3011615

KEYWORDS: Extreme ultraviolet, Extreme ultraviolet lithography, Tantalum, Optical lithography, Scanners, Semiconducting wafers, Design, Logic

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Proceedings Article | 28 April 2023 Presentation + Paper

CNT pellicles: recent optimization and exposure results

Joost Bekaert, Emily Gallagher, Marina Timmermans, Ivan Pollentier, Rik Jonckheere, Remko Aubert, Eric Hendrickx

Proceedings Volume 12494, 124940E (2023) https://doi.org/10.1117/12.2660595

KEYWORDS: Pellicles, Semiconducting wafers, Scanners, Reticles, Extreme ultraviolet lithography, Extreme ultraviolet, Plasma, Hydrogen

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Proceedings Article | 1 December 2022 Presentation + Paper

Does high-NA EUV require tighter mask roughness specifications: a simulation study

Rik Jonckheere, Lawrence Melvin

Proceedings Volume 12292, 122920L (2022) https://doi.org/10.1117/12.2643247

KEYWORDS: Photomasks, Line edge roughness, Stochastic processes, Visualization, Semiconducting wafers, Failure analysis, Extreme ultraviolet, Diffraction, Tolerancing, Surface roughness, Multilayers

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SPIE Journal Paper | 14 October 2022 Open Access

Wafer level response to mask deficiencies in 0.55-numerical aperture extreme ultraviolet photolithography

Lawrence Melvin, Rik Jonckheere

JM3, Vol. 21, Issue 04, 044401, (October 2022) https://doi.org/10.1117/12.10.1117/1.JMM.21.4.044401

KEYWORDS: Photomasks, Semiconducting wafers, Stochastic processes, Extreme ultraviolet, Critical dimension metrology, Computer simulations, Optical proximity correction, Photoresist materials, Failure analysis, Scanners

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Proceedings Article | 13 June 2022 Presentation

Two-dimensional feature stochastic printing with mask deficiencies in high-NA EUV

Lawrence Melvin, Rik Jonckheere

Proceedings Volume PC12051, PC120510A (2022) https://doi.org/10.1117/12.2614874

KEYWORDS: Photomasks, Stochastic processes, Extreme ultraviolet, Printing, Semiconducting wafers, Scanners, Optical lithography, Photoresist materials, Metals, Lithography

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Previous stochastic simulation studies described the impact of EUV mask deficiencies upon imaging lines and spaces, in both 0.33 NA and high NA extreme UV lithography, using respectively isomorphic and anamorphic imaging. Specifically multilayer ripple and absorber line-edge roughness are considered to require adjusted mask specifications in high NA lithography, as they cause increased defectivity and deteriorated CD uniformity on wafer. Recent work demonstrates that for high NA at 22 nm pitch the spread of printed CD due to ML ripple is found to saturate at unacceptable values already below a simulated 50 pm RMS value, that is currently considered as state-of-the-art. Also, it has been shown that there are measurable differences between horizontal and vertical feature defectivity for lines and spaces. Two dimensional line features govern line-end to line-end spacing -- the so called tip-to-tip (T2T) metal lines gap. This spacing in turn impacts contact pitch, making both significant influencers on cell layout area. High NA is anticipated to allow reduction in line-end to line-end gap sizes in a single patterning situation. Figure 1 demonstrates that a 16 nm line-end to line-end gap in a 22 nm pitch feature is feasible. However, the stochastic simulation illustrates approximately 2 nm of T2T variation on wafer and significant variation in the simulated failure ratio with a 50 pm RMS ML-ripple EUV mask. Such mask defectivity impact further interacts with the photonic stochastics of the high NA scanner and the photoresist stochastics. The stochastic model used is explained in Ref. JM3i. This paper will explore the impact of mask ML ripple and absorber line edge roughness on high-NA imaging of T2T features, including their sensitivity to orientation relative to the slit/scan directions of the scanner, in view of anamorphicity. A proposal for more precise definitions of the concept of horizontal and vertical will be made, by which, in the author’s opinions, future coverage of high NA will benefit. These findings will improve insights on any potential additional mask specifications required for high NA single patterning.

Proceedings Article | 12 October 2021 Presentation + Paper

Contribution of mask roughness in stochasticity of high-NA EUV imaging

Rik Jonckheere, Lawrence Melvin

Proceedings Volume 11854, 118540I (2021) https://doi.org/10.1117/12.2601897

KEYWORDS: Photomasks, Critical dimension metrology, Line edge roughness, Stochastic processes, Semiconducting wafers, Failure analysis, Extreme ultraviolet

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SPIE Journal Paper | 27 May 2021

Carbon nanotube pellicles: imaging results of the first full-field extreme ultraviolet exposures

Joost Bekaert, Emily Gallagher, Rik Jonckheere, Lieve van Look, Remko Aubert, Vineet Nair, Marina Timmermans, Ivan Pollentier, Eric Hendrickx, Alexander Klein, Gökay Yeğen, Par Broman

JM3, Vol. 20, Issue 02, 021005, (May 2021) https://doi.org/10.1117/12.10.1117/1.JMM.20.2.021005

KEYWORDS: Pellicles, Scanners, Extreme ultraviolet, Extreme ultraviolet lithography, Carbon nanotubes, Semiconducting wafers, Scattering, Reticles, Particles, Line width roughness

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SPIE Journal Paper | 8 May 2021 Open Access

Contribution of mask defectivity in stochastics of EUVL-based wafer printing

Lawrence Melvin, Rik Jonckheere

JM3, Vol. 20, Issue 02, 021003, (May 2021) https://doi.org/10.1117/12.10.1117/1.JMM.20.2.021003

KEYWORDS: Photomasks, Semiconducting wafers, Critical dimension metrology, Stochastic processes, Line edge roughness, Failure analysis, Extreme ultraviolet, Printing, Monte Carlo methods, Extreme ultraviolet lithography

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Proceedings Article | 23 February 2021 Presentation + Paper

CNT pellicles: imaging results of the first full-field EUV exposures

Joost Bekaert, Emily Gallagher, Rik Jonckheere, Lieve Van Look, Remko Aubert, Vineet Nair, Marina Timmermans, Ivan Pollentier, Eric Hendrickx, Alexander Klein, Gokay Yeğen, Pär Broman

Proceedings Volume 11609, 116090Z (2021) https://doi.org/10.1117/12.2584724

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Proceedings Article | 22 February 2021 Poster + Presentation

Two-dimensional feature stochastic printing with mask deficiencies in high-NA EUV

Lawrence Melvin, Rik Jonckheere, Eric Hendrickx

Proceedings Volume 11609, 116091S (2021) https://doi.org/10.1117/12.2584775

KEYWORDS: Photomasks, Extreme ultraviolet, Stochastic processes, Printing, Semiconducting wafers, Mirrors, Wafer-level optics, Ultraviolet radiation, Surface roughness, Semiconductor manufacturing

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An Extreme Ultra-Violet (EUV) photo mask is a complex engineering marvel. It is integral to semiconductor manufacturing, as it holds the design layout information intended for the device. The mask complexity allows many potential points of variation during the mask manufacturing process. Some of these deviations from the ideal mask remain benign to wafer patterning but others impact the wafer pattern. To date, reported studies have characterized the impact of local mask defects in the absorber pattern and within the multilayer mirror of an EUV mask [1], as well as various non-local mask deficiencies such as multilayer mirror surface roughness and contamination growth [2]. The results revealed relationships between mask quality limitations and stochastic failures on the wafer. The studies to date were based on line-and-space patterns to reduce optical complexity and were completed using NA 0.33. The study proposed will extend the research effort into two-dimensional (2D) structures such as contacts, via, and tip-to-tip containing line/space structures, to further understand the impact of mask defects in complex imaging configurations. The study will also investigate these 2D structures patterned with high-NA EUV lithography. As a start, one-dimensional structures will be imaged with high-NA EUV using conditions from previous studies to provide a continuous baseline. The introduction of 2D structures brings optical and computational complexities into the study. The optics contain more complex information than found in the line/space patterns used in previous studies. This may lead to additional impacts not observed in previous work. In addition, due to the complexities of these patterns, the computational effort becomes larger, which may necessitate improved algorithms or learning methodologies. Additionally, in the anamorphic high-NA system the choice of pattern orientation in the 4x or 8x direction is thought to be based on critical feature type such as tip-to-tip or minimum CD, but the introduction of stochastic mask analysis may influence this preference. This work is expected to contribute to a better understanding of which mask quality aspects must be tightened for high-NA EUV.

Proceedings Article | 28 December 2020 Presentation + Paper

Stochastic printing behavior of non-local mask deficiencies in EUV lithography

Rik Jonckheere, Lawrence Melvin

Proceedings Volume 11517, 1151710 (2020) https://doi.org/10.1117/12.2572998

KEYWORDS: Photomasks, Stochastic processes, Printing, Extreme ultraviolet lithography, Semiconducting wafers, Optical lithography, Extreme ultraviolet, Manufacturing, Reticles, Nanoimprint lithography

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Proceedings Article | 4 November 2020 Presentation + Paper

Study of EUV reticle storage effects through exposure on EBL2 and NXE

Rik Jonckheere, Chien-Ching Wu, Veronique de Rooij-Lohmann, Dorus Elstgeest, Henk Lensen, Philipp Hönicke, Michael Kolbe, Victor Soltwisch, Claudia Zech, Frank Scholze, Remko Aubert, Vineet Nair, Eric Hendrickx

Proceedings Volume 11517, 115170Z (2020) https://doi.org/10.1117/12.2573125

KEYWORDS: Reticles, Extreme ultraviolet lithography, Photomasks, Semiconducting wafers, Ruthenium, Scanners, Contamination, Integrated circuits, Semiconductors, X-rays

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Proceedings Article | 24 October 2019 Presentation + Paper

Stochastic printing behavior of ML-defects on EUV mask

Rik Jonckheere, Lawrence Melvin, Renzo Capelli

Proceedings Volume 11147, 111470P (2019) https://doi.org/10.1117/12.2538153

KEYWORDS: Defect detection, Defect inspection, Stochastic processes, Photomasks, Failure analysis, Extreme ultraviolet, Printing, Critical dimension metrology, Extreme ultraviolet lithography

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Proceedings Article | 29 August 2019 Paper

EUVL is being inserted in manufacturing in 2019: What are the mask related challenges remaining?

Kurt Ronse, Rik Jonckheere, Emily Gallagher, Vicky Philipsen, Lieve Van Look, Eric Hendrickx, Ryoung Han Kim

Proceedings Volume 11177, 111770A (2019) https://doi.org/10.1117/12.2535821

KEYWORDS: Extreme ultraviolet, Photomasks, Pellicles, Extreme ultraviolet lithography, Manufacturing, Semiconducting wafers, High volume manufacturing, Critical dimension metrology, Inspection, Logic

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Proceedings Article | 27 June 2019 Open Access

Lifetime test on EUV photomask with EBL2

Chien-Ching Wu, Markus Bender, Rik Jonckheere, Frank Scholze, Herman Bekman, Michel van Putten, Rory de Zanger, Rob Ebeling, Jeroen Westerhout, Kyri Nicolai, Jacqueline van Veldhoven, Véronique de Rooij-Lohmann, Olaf Kievit, Alex Deutz

Proceedings Volume 11178, 111780E (2019) https://doi.org/10.1117/12.2537734

KEYWORDS: Extreme ultraviolet lithography, Photomasks, Extreme ultraviolet, Scanners, Reflectivity, Oxidation, Ruthenium

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Proceedings Article | 9 October 2018 Paper

Defect avoidance for extreme ultraviolet mask defects using intentional pattern deformation

Yoo-Jin Chae, Rik Jonckheere, Puneet Gupta

Proceedings Volume 10809, 108091H (2018) https://doi.org/10.1117/12.2501525

KEYWORDS: Photomasks, Computer programming, Extreme ultraviolet, Lithography, Extreme ultraviolet lithography, Metals, 193nm lithography, Semiconducting wafers, Safety, Yield improvement

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Proceedings Article | 12 June 2018 Paper

Blank defect coverage budget for 16nm half-pitch single EUV exposure

Rik Jonckheere, Takeshi Yamane, Yasutaka Morikawa, Takashi Kamo

Proceedings Volume 10807, 108070H (2018) https://doi.org/10.1117/12.2502792

KEYWORDS: Printing, Photomasks, Semiconducting wafers, Extreme ultraviolet lithography, Atomic force microscopy, Extreme ultraviolet, Visualization, Inspection, Tolerancing, Optical alignment

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Proceedings Article | 19 March 2018 Paper

Printability estimation of EUV blank defect using actinic image

Takeshi Yamane, Takashi Kamo, Rik Jonckheere

Proceedings Volume 10583, 105831F (2018) https://doi.org/10.1117/12.2297503

KEYWORDS: Semiconducting wafers, Photomasks, Critical dimension metrology, Extreme ultraviolet, Wafer-level optics, Extreme ultraviolet lithography, Multilayers, Inspection, Image processing, Optical alignment

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Proceedings Article | 13 July 2017 Paper

Overcoming EUV mask blank defects: what we can, and what we should

Rik Jonckheere

Proceedings Volume 10454, 104540M (2017) https://doi.org/10.1117/12.2282761

KEYWORDS: Photomasks, Extreme ultraviolet, Extreme ultraviolet lithography, Inspection, Manufacturing

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Proceedings Article | 23 October 2015 Paper

Properties and performance of EUVL pellicle membranes

Emily Gallagher, Johannes Vanpaemel, Ivan Pollentier, Houman Zahedmanesh, Christoph Adelmann, Cedric Huyghebaert, Rik Jonckheere, Jae Uk Lee

Proceedings Volume 9635, 96350X (2015) https://doi.org/10.1117/12.2199076

KEYWORDS: Extreme ultraviolet lithography, Pellicles, Photomasks, Extreme ultraviolet, Particles, High volume manufacturing, Scanners, 193nm lithography, Semiconducting wafers, Manufacturing, Silicon, Etching, Carbon

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Proceedings Article | 4 September 2015 Paper

Understanding of Out-of-Band DUV light in EUV lithography: controlling impact on imaging and mitigation strategies

N. Davydova, R. Kottumakulal, J. Hageman, J. McNamara, R. Hoefnagels, V. Vaenkatesan, A. van Dijk, K. Ricken, L. de Winter, R. de Kruif, R. Jonckheere, T. Hollink, G. Schiffelers, E. van Setten, P. Colsters, W. Liebregts, R. Pellens, J. van Dijk

Proceedings Volume 9661, 96610B (2015) https://doi.org/10.1117/12.2195733

KEYWORDS: Aluminum, Deep ultraviolet, Reflectivity, Reticles, Semiconducting wafers, Scanners, Extreme ultraviolet, Extreme ultraviolet lithography, Coating, Reflection

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EUV sources emit a broad band DUV Out-of-Band (OOB) light, in particular, in the wavelength range 100-400 nm. This can cause additional exposure of EUV resists made that are based on a ArF/KrF resist platform. This DUV light is partially suppressed while travelling through the optical path but a non-negligible part of it reaches wafer level and impacts imaging.

This is important for imaging at the edges of an image field when fields are printed very close to each other on the wafer (so-called butted fields, with zero field to field spacing). DUV light is reflected from the reticle black border (BB) into a neighboring exposure field on the wafer. This results in a CD change at the edges and in the corners of the fields and therefore has an impact on CD uniformity. Experimental CDU results are shown for 16 nm dense lines (DL) and 20 nm isolated spaces (IS) (N7 logic design features) in the fields exposed at 0 mm and 0.5mm distance on the wafer. Areas close to the edge of the image field are important for customer applications as they often contain qualification and monitoring structures; in addition, limited imaging capabilities in this area may result in loss of usable wafer space.

In order to understand and control OOB DUV light, it must be measured in the scanner. DUV measurements are performed in resist using a special OOB reticle coated with Aluminum (Al) having low EUV reflectance and high DUV reflectance. A model for DUV light impact on the imaging is proposed and verified. For this, DUV reflectance data is collected in the wavelengths range 100-400 nm for Al and BB and the ratio of reflectances of these materials is determined for assumed scanner and resist OOB spectra. Also direct BB OOB test is performed on the wafer and compared to Al OOB results. The sensitivity of 16 nm DL and 20 nm IS to OOB light is experimentally determined by means of double exposure test: a wafer with exposed imaging structures undergoes a second flood exposure from a DUV reflective material (Al or BB).

Finally, several OOB mitigation strategies are discussed, in particular, suppression of DUV light in the scanner (~3x improvement), recent successes of DUV suppression for 16 nm imaging resist (~1.8x improvement) and DUV reflectance mitigation in the reticle black border (~3.8x). An overview of OOB test results for multiple NXE systems will be shown including systems with new NXE:3350 optics with improved OOB suppression.

Proceedings Article | 9 July 2015 Paper

EUV scanner printability evaluation of natural blank defects detected by actinic blank inspection

Noriaki Takagi, Hidehiro Watanabe, Dieter Van den Heuvel, Rik Jonckheere, Emily Gallagher

Proceedings Volume 9658, 96580F (2015) https://doi.org/10.1117/12.2197622

KEYWORDS: Inspection, Photomasks, Semiconducting wafers, Extreme ultraviolet lithography, Defect detection, Scanners, Printing, Atomic force microscopy, Extreme ultraviolet, Mirrors

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Proceedings Article | 9 July 2015 Paper

Defectivity evaluation of EUV reticles with etched multilayer image border by wafer printing analysis

Rik Jonckheere, Erik Verduijn, Genta Watanabe, Norihito Fukugami, Yo Sakata, Yutaka Kodera, Emily Gallagher

Proceedings Volume 9658, 96580H (2015) https://doi.org/10.1117/12.2197682

KEYWORDS: Semiconducting wafers, Photomasks, Extreme ultraviolet, Reticles, Extreme ultraviolet lithography, Reflectivity, Scanning electron microscopy, Printing, Scanners, Opacity

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Proceedings Article | 13 March 2015 Paper

Correlation of actinic blank inspection and experimental phase defect printability on NXE3x00 EUV scanner

R. Jonckheere, D. Van den Heuvel, N. Takagi, H. Watanabe, E. Gallagher

Proceedings Volume 9422, 942216 (2015) https://doi.org/10.1117/12.2085801

KEYWORDS: Photomasks, Inspection, Semiconducting wafers, Printing, Extreme ultraviolet lithography, Scanners, Extreme ultraviolet, Defect detection, Wafer inspection, Reticles

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Proceedings Article | 28 July 2014 Paper

Towards reduced impact of EUV mask defectivity on wafer

R. Jonckheere, D. Van den Heuvel, A. Pacco, I. Pollentier, B. Baudemprez, C. Jehoul, J. Hermans, E. Hendrickx

Proceedings Volume 9256, 92560L (2014) https://doi.org/10.1117/12.2070045

KEYWORDS: Photomasks, Extreme ultraviolet, Reticles, Semiconducting wafers, Particles, Inspection, Extreme ultraviolet lithography, Bismuth, Printing, Scanners

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Proceedings Article | 17 April 2014 Paper

Feasibility of compensating for EUV field edge effects through OPC

Chris Maloney, James Word, Germain Fenger, Ardavan Niroomand, Gian Lorusso, Rik Jonckheere, Eric Hendrickx, Bruce Smith

Proceedings Volume 9048, 90480T (2014) https://doi.org/10.1117/12.2046203

KEYWORDS: Optical proximity correction, Extreme ultraviolet, Reflectivity, Photomasks, Reticles, Deep ultraviolet, Extreme ultraviolet lithography, Neodymium, Etching, Electroluminescent displays

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As EUV Lithography (EUVL) continues to evolve, it offers a possible solution to the problems of additional masks and lithography steps that drive up the cost and complexity of 193i multiple patterning. EUVL requires a non-telecentric reflective optical system for operation. This requirement causes EUV specific effects such as shadowing. The absorber physically shadows the reflective multilayer (ML) on an EUV reticle resulting in pattern fidelity degradation. To reduce this degradation, a thinner absorber may help. Yet, as the absorber thickness decreases, reflectivity increases in the ‘dark’ region around the image field, resulting in a loss of contrast. The region around the edge of the die on the mask of unpatterned absorber material deposited on top of ML, known as the image border, is also susceptible to undesirable reflections in an ideally dark region. For EUVL to be enabled for high-volume manufacturing (HVM), reticle masking (REMA) blades are used to shield light from the image border to allow for the printing of densely spaced die. When die are printed densely, the image border of each neighboring die will overlap with the edge of a given die resulting in an increase of dose that overexposes features at the edge of the field. This effect is convolved with a fingerprint from the edge of the REMA blades. This phenomenon will be referred to as a field edge effect. One such mitigation strategy that has been investigated to reduce the field edge effect is to fully remove the ML along the image border to ensure that no actinic-EUV radiation can be reflected onto neighboring die. This has proven to suppress the effect, but residual out-of-band radiation still provides additional dose to features near the image border, especially in the corners where three neighboring fields overlap. Measurements of dense contact holes (CHs) have been made along the image border with and without a ML-etched border at IMEC in collaboration with Micron using the ASML NXE:3100. The implementation of these measurements allow for further mitigation, i.e., compensation by OPC. Mentor Graphics’ Calibre software uses the scanner’s point spread function and convolves it with the mask layout to generate a flare map. It also has the capability to add additional dose to the image border which can be optimized to fit the experimental data. This includes the transition region between the image field and border that results in a linear rolloff of dose due to partial shadowing of the REMA blades. By applying this flaremap that accounts for neighboring die to the already calibrated optical and resist models, OPC can now be enabled to compensate for field edge effects. This study has two goals. First, we will show that OPC can be used to compensate both for field edge effects with and without a etched ML border. The second is to investigate the limitations that exist for OPC in the areas altered by neighboring die. This will predict when a process to mitigate the field edge effect is needed to enable EUV HVM.

Proceedings Article | 1 October 2013 Paper

Actinic characterization and modeling of the EUV mask stack

Vicky Philipsen, Eric Hendrickx, Rik Jonckheere, Natalia Davydova, Timon Fliervoet, Jens Timo Neumann

Proceedings Volume 8886, 88860B (2013) https://doi.org/10.1117/12.2030663

KEYWORDS: Photomasks, Reflectivity, Diffraction, 3D modeling, Extreme ultraviolet, Silicon, Reflectometry, Calibration, Molybdenum, Semiconducting wafers

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Proceedings Article | 1 April 2013 Paper

Modeling strategies for EUV mask multilayer defect dispositioning and repair

Andreas Erdmann, Peter Evanschitzky, Tristan Bret, Rik Jonckheere

Proceedings Volume 8679, 86790Y (2013) https://doi.org/10.1117/12.2011444

KEYWORDS: Photomasks, Printing, Extreme ultraviolet, Lithography, Multilayers, Atomic force microscopy, Semiconducting wafers, Optimization (mathematics), Critical dimension metrology, Systems modeling

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Proceedings Article | 8 November 2012 Paper

E-beam based mask repair as door opener for defect free EUV masks

Markus Waiblinger, Tristan Bret, Rik Jonckheere, Dieter Van den Heuvel

Proceedings Volume 8522, 85221M (2012) https://doi.org/10.1117/12.966387

KEYWORDS: Photomasks, Extreme ultraviolet, Scanning electron microscopy, Semiconducting wafers, Reticles, Mirrors, Atomic force microscopy, Printing, Distortion, Inspection

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Proceedings Article | 17 April 2012 Paper

Integrated cleaning and handling automation of NXE3100 reticles

Rik Jonckheere, Tobias Waehler, Bart Baudemprez, Uwe Dietze, Peter Dress, Oliver Brux, Kurt Ronse

Proceedings Volume 8352, 83520U (2012) https://doi.org/10.1117/12.923321

KEYWORDS: Reticles, Particles, Scanners, Extreme ultraviolet, Photomasks, Extreme ultraviolet lithography, Contamination, Inspection, Semiconducting wafers, Surface roughness

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Proceedings Article | 3 April 2012 Paper

Investigation of the performance of state-of-the-art defect inspection tools within EUV lithography

Dieter Van den Heuvel, Rik Jonckheere, Bart Baudemprez, Shaunee Cheng, Gino Marcuccilli, Andrew Cross, Gregg Inderhees, Paolo Parisi

Proceedings Volume 8324, 83240L (2012) https://doi.org/10.1117/12.916979

KEYWORDS: Inspection, Semiconducting wafers, Reticles, Wafer inspection, Photomasks, Etching, Wafer-level optics, Scanning electron microscopy, Defect detection, Defect inspection

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Proceedings Article | 23 March 2012 Paper

Analysis of EUV mask multilayer defect printing characteristics

Andreas Erdmann, Peter Evanschitzky, Tristan Bret, Rik Jonckheere

Proceedings Volume 8322, 83220E (2012) https://doi.org/10.1117/12.916411

KEYWORDS: Photomasks, Printing, Extreme ultraviolet, Multilayers, Semiconducting wafers, Computer simulations, Critical dimension metrology, Extreme ultraviolet lithography, Reflectivity, Lithography

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Proceedings Article | 23 March 2012 Paper

Closing the gap for EUV mask repair

T. Bret, R. Jonckheere, D. Van den Heuvel, C. Baur, M. Waiblinger, G. Baralia

Proceedings Volume 8322, 83220C (2012) https://doi.org/10.1117/12.918322

KEYWORDS: Photomasks, Scanning electron microscopy, Extreme ultraviolet, Atomic force microscopy, Semiconducting wafers, Reticles, Inspection, Mirrors, Etching, Printing

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Proceedings Article | 14 October 2011 Paper

Repair of natural EUV reticle defects

R. Jonckheere, T. Bret, D. Van den Heuvel, J. Magana, W. Gao, M. Waiblinger

Proceedings Volume 8166, 81661G (2011) https://doi.org/10.1117/12.898864

KEYWORDS: Semiconducting wafers, Photomasks, Printing, Scanning electron microscopy, Atomic force microscopy, Extreme ultraviolet, Inspection, Reticles, Visualization, Extreme ultraviolet lithography

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Proceedings Article | 14 October 2011 Paper

Additional evidence of EUV blank defects first seen by wafer printing

Rik Jonckheere, Dieter Van den Heuvel, Tristan Bret, Thorsten Hofmann, John Magana, Israel Aharonson, Doron Meshulach, Eric Hendrickx, Kurt Ronse

Proceedings Volume 8166, 81660E (2011) https://doi.org/10.1117/12.901555

KEYWORDS: Printing, Inspection, Reticles, Semiconducting wafers, Extreme ultraviolet, Bismuth, Atomic force microscopy, Photomasks, Wafer inspection, Visualization

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Proceedings Article | 5 October 2011 Paper

Predictive modeling of EUV-lithography: the role of mask, optics, and photoresist effects

Andreas Erdmann, Peter Evanschitzky, Feng Shao, Tim Fühner, Gian Lorusso, Eric Hendrickx, Mieke Goethals, Rik Jonckheere, Tristan Bret, Thorsten Hofmann

Proceedings Volume 8171, 81710M (2011) https://doi.org/10.1117/12.896813

KEYWORDS: Calibration, Photomasks, Data modeling, Photoresist materials, Extreme ultraviolet, Extreme ultraviolet lithography, Lithography, Diffusion, Semiconducting wafers, Projection systems

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Proceedings Article | 2 April 2011 Paper

Effective EUVL mask cleaning technology solutions for mask manufacturing and in-fab mask maintenance

Uwe Dietze, Peter Dress, Tobias Waehler, Sherjang Singh, Rik Jonckheere, Bart Baudemprez

Proceedings Volume 7985, 79850N (2011) https://doi.org/10.1117/12.896911

KEYWORDS: Photomasks, Extreme ultraviolet, Extreme ultraviolet lithography, Reflectivity, Particles, Carbon, Ruthenium, Contamination, Reticles, Mask cleaning

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Proceedings Article | 2 April 2011 Paper

Evidence of printing blank-related defects on EUV masks missed by blank inspection

Rik Jonckheere, Dieter Van den Heuvel, Tristan Bret, Thorsten Hofmann, John Magana, Israel Aharonson, Doron Meshulach, Eric Hendrickx, Kurt Ronse

Proceedings Volume 7985, 79850W (2011) https://doi.org/10.1117/12.883854

KEYWORDS: Inspection, Printing, Photomasks, Reticles, Wafer inspection, Semiconducting wafers, Extreme ultraviolet, Visualization, Atomic force microscopy, Defect detection

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Proceedings Article | 29 November 2010 Paper

EUV mask defectivity study by existing DUV tools and new e-beam technology

Shmoolik Mangan, Rik Jonckheere, Dieter Van Den Heuvel, Moshe Rozentsvige, Vladislav Kudriashov, Ran Brikman, Lior Shoval, Gaetano Santoro, Ilan Englard

Proceedings Volume 7823, 78232A (2010) https://doi.org/10.1117/12.864351

KEYWORDS: Photomasks, Inspection, Semiconducting wafers, Wafer inspection, Defect detection, Extreme ultraviolet, Printing, Deep ultraviolet, Reticles, Bismuth

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Proceedings Article | 29 September 2010 Paper

Natural EUV mask blank defects: evidence, timely detection, analysis and outlook

Dieter Van den Heuvel, Rik Jonckheere, John Magana, Tsukasa Abe, Tristan Bret, Eric Hendrickx, Shaunee Cheng, Kurt Ronse

Proceedings Volume 7823, 78231T (2010) https://doi.org/10.1117/12.865812

KEYWORDS: Reticles, Inspection, Printing, Bismuth, Photomasks, Semiconducting wafers, Defect detection, Wafer inspection, Extreme ultraviolet, Atomic force microscopy

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Proceedings Article | 20 March 2010 Paper

Techniques for removal of contamination from EUVL mask without surface damage

Sherjang Singh, Ssuwei Chen, Tobias Wähler, Rik Jonckheere, Ted Liang, Robert Chen, Uwe Dietze

Proceedings Volume 7636, 76360Y (2010) https://doi.org/10.1117/12.847026

KEYWORDS: Reflectivity, Ultraviolet radiation, Extreme ultraviolet, Ruthenium, Photomasks, Surface roughness, Extreme ultraviolet lithography, Carbon, Particles, Contamination

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Proceedings Article | 11 May 2009 Paper

Investigation of EUV mask defectivity via full-field printing and inspection on wafer

Rik Jonckheere, Dieter Van Den Heuvel, Fumio Iwamoto, Nickolay Stepanenko, Alan Myers, Matt Lamantia, Anne-Marie Goethals, Eric Hendrickx, Kurt Ronse

Proceedings Volume 7379, 73790R (2009) https://doi.org/10.1117/12.824268

KEYWORDS: Reticles, Photomasks, Semiconducting wafers, Printing, Wafer inspection, Inspection, Extreme ultraviolet, Scanning electron microscopy, Atomic force microscopy, Distortion

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Proceedings Article | 18 March 2009 Paper

Measurement and analysis of EUV photoresist related outgassing and contamination

I. Pollentier, G. Aksenov, A.-M. Goethals, R. Gronheid, R. Jonckheere, M. Leeson

Proceedings Volume 7271, 727146 (2009) https://doi.org/10.1117/12.814862

KEYWORDS: Contamination, Extreme ultraviolet lithography, Extreme ultraviolet, Mirrors, Semiconducting wafers, Photoresist materials, Ellipsometry, Reflectometry, Metrology, Time metrology

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Proceedings Article | 18 March 2009 Paper

Stability and imaging of the ASML EUV alpha demo tool

Jan Hermans, Bart Baudemprez, Gian Lorusso, Eric Hendrickx, Andre van Dijk, Rik Jonckheere, Anne-Marie Goethals

Proceedings Volume 7271, 72710T (2009) https://doi.org/10.1117/12.814484

KEYWORDS: Semiconducting wafers, Critical dimension metrology, Reticles, Extreme ultraviolet, Lithography, Overlay metrology, Extreme ultraviolet lithography, Reflectivity, Projection systems, Metals

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Extreme Ultra-Violet (EUV) lithography is the leading candidate for semiconductor manufacturing of the 22nm technology node and beyond, due to the very short wavelength of 13.5nm. However, reducing the wavelength adds complexity to the lithographic process. The impact of the EUV specific conditions on lithographic performance needs to be understood, before bringing EUV lithography into pre-production. To provide early learning on EUV, an EUV fullfield scanner, the Alpha Demo Tool (ADT) from ASML was installed at IMEC, using a Numerical Aperture (NA) of 0.25. In this paper we report on different aspects of the ADT: the imaging and overlay performance and both short and long-term stability. For 40nm dense Lines-Spaces (LS), the ADT shows an across field overlapping process window of 270nm Depth Of Focus (DOF) at 10% Exposure Latitude (EL) and a wafer CD Uniformity (CDU) of 3nm 3σ, without any corrections for process or reticle. The wafer CDU is correlated to different factors that are known to influence the CD fingerprint from traditional lithography: slit intensity uniformity, focus plane deviation and reticle CD error. Taking these contributions into account, the CD through slit fingerprint for 40nm LS is simulated with excellent agreement to experimental data. The ADT shows good CD stability over 9 months of operation, both intrafield and across wafer. The projection optics reflectivity has not degraded over 9 months. Measured overlay performance with respect to a dry tool shows |Mean|+3σ below 20nm with more correction potential by applying field-by-field corrections (|Mean|+3σ ≤10nm). For 22nm SRAM application, both contact hole and metal layer were printed in EUV with 10% CD and 15nm overlay control. Below 40nm, the ADT shows good wafer CDU for 30nm dense and isolated lines (on the same wafer) and 38nm dense Contact Holes (CH). First 28nm dense line CDU data are achieved. The results indicate that the ADT can be used effectively for EUV process development before installation of the pre-production tool, the ASML NXE Gen. 1 at IMEC.

Proceedings Article | 4 December 2008 Paper

Full field EUV lithography: lessons learned on EUV ADT imaging, EUV resist, and EUV reticles

E. Hendrickx, A. Goethals, A. Niroomand, R. Jonckheere, F. Van Roey, G. Lorusso, J. Hermans, B. Baudemprez, K. Ronse

Proceedings Volume 7140, 714007 (2008) https://doi.org/10.1117/12.805408

KEYWORDS: Extreme ultraviolet, Reticles, Semiconducting wafers, Extreme ultraviolet lithography, Photomasks, Line edge roughness, Critical dimension metrology, Lithography, Finite element methods, Printing

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Proceedings Article | 28 March 2008 Paper

Dependence of EUV mask printing performance on blank architecture

Rik Jonckheere, Yoonsuk Hyun, Fumio Iwamoto, Bart Baudemprez, Jan Hermans, Gian Francesco Lorusso, Ivan Pollentier, Anne-Marie Goethals, Kurt Ronse

Proceedings Volume 6921, 69211W (2008) https://doi.org/10.1117/12.771967

KEYWORDS: Carbon, Reflectivity, Photomasks, Extreme ultraviolet, Silicon, Ruthenium, Reticles, Printing, Extreme ultraviolet lithography, Oxidation

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Proceedings Article | 20 March 2008 Paper

Imaging performance of the EUV alpha semo tool at IMEC

G. Lorusso, J. Hermans, A. M. Goethals, B. Baudemprez, F. Van Roey, A. Myers, I. Kim, B. S. Kim, R. Jonckheere, A. Niroomand, S. Lok, A. Van Dijk, J.-F. de Marneffe, S. Demuynck, D. Goossens, K. Ronse

Proceedings Volume 6921, 69210O (2008) https://doi.org/10.1117/12.771983

KEYWORDS: Extreme ultraviolet lithography, Extreme ultraviolet, Critical dimension metrology, Etching, Photomasks, Manufacturing, Overlay metrology, Printing, Photoresist processing, Scanners

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Proceedings Article | 20 March 2008 Paper

EUV pattern shift compensation strategies

T. Schmoeller, T. Klimpel, I. Kim, G. Lorusso, A. Myers, R. Jonckheere, A. Goethals, K. Ronse

Proceedings Volume 6921, 69211B (2008) https://doi.org/10.1117/12.772640

KEYWORDS: Photomasks, Extreme ultraviolet, Semiconducting wafers, Projection systems, Imaging systems, Near field, Extreme ultraviolet lithography, Lithography, Reflectivity, Lithographic illumination

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EUV lithography is one of the hot candidates for the 22nm node. A well known phenomenon in EUV lithography is the impact of non-telecentricity and the mask topography on printing performance. Due to oblique illumination of the mask, layout, the printed features are shifted and biased on the wafer with respect to their target dimension up to several nanometers. This effect is inherent to EUV imaging systems. In order to maintain CDU, overlay and registration requirements, these effects need to be compensated for as part of the lithographic manufacturing process. Conventional compensation techniques, such as OPC compensation, significantly increase the complexity of the litho process. In this paper we discuss pattern shift, which is induced by mask-side non-telecentricity of the EUV ring field system. In particular, we show how the mask position relative to the focal plane of the projection system impacts pattern shift. It is shown that mask focus shift allows for a compensation of pattern shift, independent on angle of incidence, pattern type, pattern pitch, pattern orientation, and slit position. Thus it is seen that placement error is not an effect related to mask topography (not a shadowing effect) but arises purely from the mask non-telecentricity. A geometric interpretation of this effect is given and shown to be consistent with results of rigorous simulations. A method to simulate the shift of the mask focus position is briefly discussed. The mask focus shift for which the pattern shift vanishes in the aerial wafer image at best focus is determined using rigorous simulations. The amount of mask focus shift to compensate for the pattern shift is found to be approximately 136nm. This mask focus shift is then applied to investigate the through focus and dose behavior of the pattern shift in the resist. It is shown that the pattern shift is a function of wafer focus position and that this is a result of the image tilt in EUV systems. While the pattern shift is fully compensated at one wafer focus position, the shift at other positions is very small. The impact of the mask focus position on process window is investigated.

Proceedings Article | 30 October 2007 Paper

Investigation of mask defectivity in full field EUV lithography

Rik Jonckheere, Fumio Iwamoto, G. Lorusso, A. Goethals, K. Ronse, H. Koop, T. Schmoeller

Proceedings Volume 6730, 673012 (2007) https://doi.org/10.1117/12.746566

KEYWORDS: Photomasks, Opacity, Carbon, Particles, Semiconducting wafers, Extreme ultraviolet lithography, Extreme ultraviolet, Reticles, Waveguides, Printing

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Proceedings Article | 11 May 2007 Paper

Full field EUV lithography turning into a reality at IMEC

Rik Jonckheere, Gian Francesco Lorusso, Anne Marie Goethals, Jan Hermans, Bart Baudemprez, Alan Myers, Insung Kim, Ardavan Niroomand, Fumio Iwamoto, Nickolay Stepanenko, Kurt Ronse

Proceedings Volume 6607, 66070H (2007) https://doi.org/10.1117/12.729259

KEYWORDS: Reticles, Reflectivity, Extreme ultraviolet, Extreme ultraviolet lithography, Photomasks, Silicon, Multilayers, Carbon, Contamination, Point spread functions

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Proceedings Article | 3 May 2007 Paper

Assessment of EUV reticle blank availability enabling the use of EUV tools today and in the future

R. Jonckheere, G. Lorusso, A. Goethals, K. Ronse, J. Hermans, R. De Ruyter

Proceedings Volume 6533, 653313 (2007) https://doi.org/10.1117/12.737179

KEYWORDS: Photomasks, Reticles, Extreme ultraviolet, Reflectivity, Extreme ultraviolet lithography, Silicon, Multilayers, Lithography, Contamination, Manufacturing

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Proceedings Article | 13 March 2007 Paper

EUV lithography program at IMEC

Anne Marie Goethals, Rik Jonckheere, Gian Francesco Lorusso, Jan Hermans, Frieda Van Roey, Alan Myers, Manish Chandhok, Insung Kim, Ardavan Niroomand, Fumio Iwamoto, Nikolay Stepanenko, Roel Gronheid, Bart Baudemprez, Kurt Ronse

Proceedings Volume 6517, 651709 (2007) https://doi.org/10.1117/12.710798

KEYWORDS: Extreme ultraviolet, Reticles, Extreme ultraviolet lithography, Photomasks, Line edge roughness, Point spread functions, Scanners, Lithography, Printing, Critical dimension metrology

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Proceedings Article | 21 June 2006 Paper

Analysis method to determine and characterize the mask mean-to-target and uniformity specification

Sung-Woo Lee, Leonardus Leunissen, Jeroen Van de Kerkhove, Vicky Philipsen, Rik Jonckheere, Suk-Joo Lee, Sang-Gyun Woo, Han-Ku Cho, Joo-Tae Moon

Proceedings Volume 6281, 62810U (2006) https://doi.org/10.1117/12.692804

KEYWORDS: Photomasks, Critical dimension metrology, Tolerancing, Cadmium, Manufacturing, Semiconducting wafers, Polarization, Logic devices, Fiber optic illuminators, Mask making

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Proceedings Article | 19 May 2006 Paper

Comparative study of bi-layer attenuating phase-shifting masks for hyper-NA lithography

Masaki Yoshizawa, Vicky Philipsen, Leonardus H. A. Leunissen, Eric Hendrickx, Rik Jonckheere, Geert Vandenberghe, Ute Buttgereit, Hans Becker, Corinna Koepernik, Mathias Irmscher

Proceedings Volume 6283, 62831G (2006) https://doi.org/10.1117/12.681883

KEYWORDS: Tantalum, Phase shifts, Photomasks, Lithography, Line width roughness, Polarizers, Scanners, Lithographic illumination, Polarization, Manufacturing

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Most IC manufacturers are considering MoSi to be the material of conventional 6% attenuating phase-shifting masks (attPSM) in hyper-NA lithography (50 nm half pitch node and smaller). However, simulation results show that Cr-based binary-intensity mask (BIM) outperforms the attPSM at dense lines and spaces (LS) patterns in hyper-NA lithography. A reason lies in the transmitted polarization state through the mask. The attPSM is found to be a transverse-magnetic polarizer for hyper-NA imaging, while the BIM acts as a transverse-electric polarizer, which is beneficial for imaging. Using a metal-based absorber of the attPSM has potential for improving the degree of polarization of transmitted light. In our previous work absorber thickness of bi-layer attPSM, i.e. Ta/SiO₂, was optimized through three-dimensional electromagnetic field (3D-EMF) simulations for better imaging performance than the MoSi attPSM. In this study, the thickness-optimized Ta/SiO₂ attPSM was fabricated to compare the imaging performance with the standard Ta/SiO₂ and MoSi attPSMs with 6% transmission and 180^o phase shift. The thickness-optimized Ta/SiO₂ attPSM has 1% transmission due to 50% thicker Ta than the standard, while the 180^o phase shift is controlled by SiO₂ thickness. The exposure latitude of 45 nm LS delineated by using an NA1.20 full-field scanner with xy-polarized cquadrupole was 15.7%, 13.4%, and 10.1% with depth of focus of 200 nm for the optimized Ta/SiO₂, the standard Ta/SiO₂, and MoSi, respectively. Line width roughness of the Ta/SiO₂ attPSMs was approximately 5.5 nm for the 45 nm LS, which was comparable to MoSi. Mask-error-enhancement factor (MEEF) of the 45 nm LS was 4.4, 4.9, and 3.8 for the optimized Ta/SiO₂, the standard Ta/SiO₂, and MoSi, though the simulation expected MEEF values of 4.1, 5.5, and 6.3, respectively. Because the transmission and the phase shift measured by normal incidence are not linked directly with the imaging performance in the hyper-NA lithography with off-axis illumination, the mask materials and structures need to be optimized by using 3D-EMF simulators for the better imaging quality.

Proceedings Article | 28 June 2005 Paper

Through-pitch characterization and printability for 65nm half-pitch alternating aperture phase shift applications

Vicky Philipsen, Leonardus Leunissen, Rudi De Ruyter, Rik Jonckheere, Patrick Martin, Clare Wakefield, Stephen Johnson, Michael Cangemi, Alex Buxbaum, Troy Morrison

Proceedings Volume 5853, (2005) https://doi.org/10.1117/12.617438

KEYWORDS: Etching, Photomasks, Quartz, Semiconducting wafers, Phase shifts, Chromium, Wet etching, Dry etching, Metrology, Chemistry

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Alternating aperture phase shift masks (AAPSM) continue to offer high contrast imaging for 65nm half-pitch using conventional 193nm illumination. The transition to high NA lithography systems including immersion lithography, and the ever-decreasing feature sizes have made the topography of the photomask a significant issue in the final resist image. Therefore, the influence of the alternating phase shift depth, the trench profile, and the critical dimension control through variable feature width must be considered and understood for optimized wafer imaging. This paper will examine the impact on imaging based on three photomasks, each employing different quartz etch chemistries. The three methods used to define the well structures include two all dry and a partial wet etch approach. As the photomask features continue to decrease, slight changes in the quartz etched trench profile and depth can severely affect the wafer prints, as the effective 180 degree phase shift for imaging is not achieved. In this work we correlate the imaging performance through pitch to a systematic evaluation of the photomask topography using complementary photomask metrology techniques. The actual depth and profile of the structures is obtained on a FEI Stylus nano-profilometer (SNP-XT) and from destructive cross sections. The CD linearity is measured on a top-down reticle CD SEM (KLA 8100XR). Based on photomask metrology data, rigorous electro-magnetic field (EMF) simulations of the various topographic profiles are performed. As a first printing performance estimate the photomasks are evaluated on a Zeiss AIMSfab193. Comparisons between the different evaluations will be made against wafer prints, obtained on an ASML PAS5500/1100 ArF scanner working with a 0.75NA projection lens. This study will lead to an understanding of the impact of possible limitations of the current quartz etching processes on the imaging performance of alternating phase-shift masks for 65nm half-pitch.

Proceedings Article | 6 December 2004 Paper

Printability of topography in alternating aperture phase-shift masks

Vicky Philipsen, Rik Jonckheere

Proceedings Volume 5567, (2004) https://doi.org/10.1117/12.568699

KEYWORDS: Photomasks, Etching, Mask making, Semiconducting wafers, Quartz, 193nm lithography, Dry etching, Lithography, Inspection, Anisotropic etching

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Proceedings Article | 6 December 2004 Paper

Mask topography effect in chromeless phase lithography

Vicky Philipsen, Joost Bekaert, Geert Vandenberghe, Rik Jonckheere, Douglas Van Den Broeke, Robert Socha

Proceedings Volume 5567, (2004) https://doi.org/10.1117/12.568694

KEYWORDS: Photomasks, Etching, Chromium, Quartz, Lithography, Semiconducting wafers, Lithographic illumination, 193nm lithography, Reticles, Mask making

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Proceedings Article | 2 June 2004 Paper

Determining the transfer function of a mask fabrication process

Peter Leunissen, Vicky Philipsen, Rik Jonckheere

Proceedings Volume 5504, (2004) https://doi.org/10.1117/12.568023

KEYWORDS: Photomasks, Etching, Reticles, Scanning electron microscopy, Mask making, Scattering, Semiconducting wafers, Electron beam lithography, Laser optics, Optical simulations

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A mask making process is the result of data preparation (e.g., bias), patterning and etch. The effect of these steps can be simulated starting from a circuit design. The purpose of this paper is to determine the transfer function for a production flow of a mask, describing the transition from the design to the finished reticle. The simulation results will be compared with actual measurements. 1D measurements of a mask, as shown for example in Ref.[1], provide a lot of useful information. The fingerprint that a writing tool leaves on the experimental result actually makes it possible to determine if the reticle is produced with an e-beam writer or an optical laser tool. From the deviations from the nominal value the "effective" spot size of the laser tool can be determined. In case an e-beam writer is used, the performance of the e-beam proximity correction in use becomes apparent. The mean-to-target offset can be resolved if no data biasing is performed. From SEM pitures of the reticle the 2D corner rounding effects can be determined from the combined influence of the spot size, scattering (in case of an e-beam writer) and data biasing. Global sizing can be resolved from 2D measurements. If the pattern bias is performed for each individual feature it is included in the rounding. Sufficient data about sizing, etch bias and spot size can be obtained if SEM pictures are taken from several critical sites on the reticle. For example, dense lines/spaces or contacts/dots constitute the minimum objects to be printed. Recent reticles ordered at IMEC include a monitor structure. Among other features, this performance monitor contains dots and contact holes with sizes between 90 nm and 250 nm with additional serifs at the corners. The serifs have sizes of 10 - 40 nm in 10 nm steps. All feature sizes are specified at 1x unless otherwise indicated. They are extending multiples of 10 nm from the corner position. In our work we assessed the integrity of varying serifs on dots and contact holes of 120 nm to estimate the "effective" spot size and etch bias of a reticle. The contact holes are simulated with a spot size of 80 nm and an etch bias of 70 nm. SEM pictures are in agreement with the etch bias as seen from 1D results. One might consider that another blurring function and bias condition will give the same result. A case study shows that by interchanging these parameters the resulting mask pattern yields different results. The simulations show that the SEM pictures of the 2D structures within the monitor pattern contain enough information to extract the transfer function. In some situations it might be impossible to measure 2D features (e.g., additional measurements at mask shop become too expensive; a pellicle already mounted impedes mask assessment at the wafer fab; too limited time in contrast with the lengthy procedure to extract feature contours from images; etc.). In such case 1D measurements obtained from the mask shop can already allow to estimate the etch bias. Also, the spot size can be determined from the printed minimum feature size.

Proceedings Article | 2 June 2004 Paper

January 2004 update on the SEMI standards task force on photomask qualification terminology

Rik Jonckheere

Proceedings Volume 5504, (2004) https://doi.org/10.1117/12.568031

KEYWORDS: Photomasks, Phase shifts, Lithography, Standards development, Metrology, Semiconducting wafers, Mask making, Overlay metrology, Reticles, Manufacturing

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Proceedings Article | 28 May 2004 Paper

Experimental investigation of fabrication process-, transportation-, storage, and handling-induced contamination of 157nm reticles and vacuum-UV cleaning

Uzodinma Okoroanyanwu, Nickolay Stepanenko, Guy Vereecke, Astrid Eliat, Michael Kocsis, Young-Seog Kang, Rik Jonckheere, Thierry Conard, Kurt Ronse

Proceedings Volume 5377, (2004) https://doi.org/10.1117/12.536453

KEYWORDS: Reticles, Contamination, Photomasks, Vacuum ultraviolet, Oxygen, Semiconducting wafers, Adsorption, Ions, Scanners, Binary data

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Mask fabrication process, transportation, storage, and handling contribute to contamination of 157nm reticles and modified fused silica substrates, resulting in transmission loss. A stable VUV cleaning procedure for contaminated binary, alternating, and attenuated phase shift reticles has been developed. This cleaning procedure was verified by lithographic imaging on the 157nm ASML MS-VII exposure scanner. A point-to-point steady state dose transmission uniformity range across a batch of 25 wafers (the exposure conditions of which were equivalent to that of a 300 mm wafer, 26mm×33mm fields, 50mJ/cm²) that were exposed with a modified fused silica substrate, was found to be <0.24% for a reticle that was cleaned prior to exposure using this VUV cleaning process. In-situ laser cleaning of contaminated mask substrates during exposure in the MS-VII resulted in 1% change in transmission at doses of up to 20 J/cm², above which transmission remains stable (<0.24% variation). The cleaning procedure involves exposing the contaminated reticle in the UVO Reticle Cleaning Station for 30 minutes, using a cleaning gas mixture of N₂/O₂=99%/1%. Transmission loss due to contamination within the clean room is limited to 1 - 2 % and is reversible upon VUV cleaning. Flare levels of 3% were measured on contaminated reticle relative to a clean state of the same reticle. VUV cleaning is not only good for improving and maintaining stable mask transmission, but it is also good for preventing reticle contamination-induced flare. Contamination rate and contaminant type appear to be dependent on the storage environment of mask substrates and reticles. Typical contaminants included molecular acids (halogens, sulfur, sulfates), molecular bases (ammonia, amines), molecular condensables (hydrocarbons, alcohols, ketones, fatty acids, siloxanes, phthalate), molecular dopant (boron) and molecular metals (Ca, Mg, Al, Cu). Contamination of mask substrates appears to be through a competitive adsorption phenomenon, whereby low molecular weight species with high vapor pressure and low adsorption energies are over time replaced by large molecular weight ones with low vapor pressure and high adsorption energies.

Proceedings Article | 17 December 2003 Paper

Printability of 2D mask quality

Vicky Philipsen, Rik Jonckheere

Proceedings Volume 5256, (2003) https://doi.org/10.1117/12.518032

KEYWORDS: Photomasks, Semiconducting wafers, Binary data, Reticles, Printing, Mask making, Scanning electron microscopy, Image quality, Lithography, Inspection

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Proceedings Article | 26 June 2003 Paper

Status of 157-nm lithography development at IMEC

Kurt Ronse, Peter De Bisschop, Astrid Eliat, Anne-Marie Goethals, Jan Hermans, Rik Jonckheere, Dieter Van Den Heuvel, Frieda Van Roey, Stephan Beckx, Johan Wouters, Jean-Francois de Marneffe, Timothy O'Neil, Bruce Tirri, Harry Sewell

Proceedings Volume 5040, (2003) https://doi.org/10.1117/12.485513

KEYWORDS: Pellicles, Etching, Lithography, Reticles, Photomasks, Semiconducting wafers, Optical lithography, Silicon carbide, Contamination, Oxides

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Proceedings Article | 28 May 2003 Paper

Implementation of 248-nm-based CD metrology for advanced reticle production

Andrew Hourd, Anthony Grimshaw, Gerd Scheuring, Christian Gittinger, Stefan Dobereiner, Frank Hillmann, Hans-Jurgen Bruck, Hans Hartmann, Volodymyr Ordynskyy, Kai Peter, Shiuh-Bin Chen, Parkson Chen, Rik Jonckheere, Vicky Philipsen, Thomas Schatz, Karl Sommer

Proceedings Volume 5148, (2003) https://doi.org/10.1117/12.515114

KEYWORDS: Lamps, Reticles, Critical dimension metrology, Metrology, Contamination, Deep ultraviolet, Photomasks, Reliability, Time metrology, Manufacturing

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Proceedings Article | 28 May 2003 Paper

Through-pellicle-capable DUV-based CD metrology on reticles for wafer fab and R&D environment

Rik Jonckheere, Vicky Philipsen, Gerd Scheuring, Frank Hillmann, Hans-Jurgen Brueck, Volodymyr Ordynskyy, Kai Peter, Andrew Hourd, Thomas Schaetz, Shiuh-Bin Chen, Parkson Chen, Karl Sommer

Proceedings Volume 5148, (2003) https://doi.org/10.1117/12.515116

KEYWORDS: Scanning electron microscopy, Photomasks, Pellicles, Reticles, Calibration, Semiconducting wafers, Critical dimension metrology, Binary data, 193nm lithography, Metrology

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Proceedings Article | 28 May 2003 Paper

Printability study for phase-shift masks at 193-nm lithography

Vicky Philipsen, Rik Jonckheere

Proceedings Volume 5148, (2003) https://doi.org/10.1117/12.514964

KEYWORDS: Photomasks, Semiconducting wafers, Printing, Critical dimension metrology, Scanning electron microscopy, 193nm lithography, Optical proximity correction, Opacity, Scanners, Binary data

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This paper reports on the mask quality printability for 6% attenuated phase-shift masks (PSM) using 193nm lithography. It is part of a systematic assessment of the impact of mask defects on the printed image. Our previous work [1-3] focused on defect printability of binary masks. Furthermore, an attenuated PSM is also used to print contact holes (CH), as it improves the process latitudes. In this paper we focus on the 2D quality of the CH on the mask. Due to mask-writer effects, the ideally square CH becomes rounded on the mask. The 2D mask quality determines the printed image, together with the exposure conditions and wafer stack. In a first section the influence of programmed mask defects on a 6% attenuated PSM is evaluated. The 100nm gatestyle design is based on the Defect Sensitivity Monitor (DSM of ASML MaskTools). We consider two different degrees of optical proximity correction (OPC), i.e., no OPC, and both serifs and scatter bars (SB). The mask contains programmed soft defects made from resist dots to mimic opaque defects such as bumps and spots. The wafers are exposed on an ASML PA55500/950 scanner with 193nm conventional illumination (O.7?) using a numerical aperture (NA) of 0.63. The printing results are compared to aerial image simulations taking into account the actual mask contours. A comparison table, which classifies the defect based on the induced linewidth deviation, is drawn from it. The second section deals with 2D quality of CH on a 6% attenuated PSM. The design contains CH of various sizes and in various pitches. The CH are provided with serifs on the corners, thereby varying size and placement. These serifs are intended as a correction to the design to incorporate possible mask-writer-generated rounding of the ideally square CH. The purpose of this study is to evaluate the influence of such serifs in the design towards wafer printing. The wafers are exposed on an ASML PA55500/1 100 scanner with 193nm conventional illumination (O.6?) using a NA of 0.7. The accuracy of the aerial image simulation is examined using the experimental printability data.

Proceedings Article | 28 May 2003 Paper

Feature proximity errors on mask: assessment results of commercially obtained reticles

Rik Jonckheere, Goedele Potoms, Vicky Philipsen

Proceedings Volume 5148, (2003) https://doi.org/10.1117/12.515106

KEYWORDS: Photomasks, Reticles, Binary data, Critical dimension metrology, Semiconducting wafers, Lithography, Etching, 193nm lithography, Resolution enhancement technologies, Optical proximity correction

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Proceedings Article | 27 December 2002 Paper

Extended defect printability study for 100-nm design rule using 193-nm lithography

Vicky Philipsen, Rik Jonckheere

Proceedings Volume 4889, (2002) https://doi.org/10.1117/12.467909

KEYWORDS: Reticles, Chromium, Printing, Scanning electron microscopy, 193nm lithography, Binary data, Semiconducting wafers, Opacity, Lithography, Diffraction

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Proceedings Article | 27 December 2002 Paper

2002 update on the SEMI Standards Mask Qualification Terminology Task Force

Rik Jonckheere

Proceedings Volume 4889, (2002) https://doi.org/10.1117/12.467907

KEYWORDS: Photomasks, Semiconducting wafers, Reticles, Standards development, Metrology, Optical proximity correction, Printing, Manufacturing, Inspection, Edge roughness

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Proceedings Article | 27 December 2002 Paper

Reliable subnanometer repeatability for CD metrology in a reticle production environment

Andrew Hourd, Anthony Grimshaw, Gerd Scheuring, Christian Gittinger, Stefan Doebereiner, Frank Hillmann, Hans-Juergen Brueck, Shiuh-Bin Chen, Parkson Chen, Rik Jonckheere, Vicky Philipsen, Hans Hartmann, Volodymyr Ordynskyy, Kai Peter, Thomas Schaetz, Karl Sommer

Proceedings Volume 4889, (2002) https://doi.org/10.1117/12.468090

KEYWORDS: Reticles, Metrology, Deep ultraviolet, Photomasks, Critical dimension metrology, Line edge roughness, Binary data, Manufacturing, Computed tomography, Image processing

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Proceedings Article | 27 December 2002 Paper

Analysis of the impact of reticle CD variations on the available process windows for a 100-nm CMOS process

Staf Verhaegen, Geert Vandenberghe, Rik Jonckheere, Kurt Ronse

Proceedings Volume 4889, (2002) https://doi.org/10.1117/12.467915

KEYWORDS: Reticles, Critical dimension metrology, Semiconducting wafers, Electroluminescence, Photomasks, Optical proximity correction, 3D metrology, Cadmium, Resolution enhancement technologies, Photoresist processing

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Proceedings Article | 16 August 2002 Paper

Advanced optical imaging platform for CD metrology and defect review on 130-nm to 100-nm node reticles: an overview of preliminary results

Andrew Hourd, Anthony Grimshaw, Gerd Scheuring, Christian Gittinger, Hans-Juergen Brueck, Shiuh-Bin Chen, Parkson Chen, Hans Hartmann, Volodymyr Ordynskyy, Rik Jonckheere, Vicky Philipsen, Thomas Schaetz, Karl Sommer

Proceedings Volume 4764, (2002) https://doi.org/10.1117/12.479349

KEYWORDS: Photomasks, Critical dimension metrology, Deep ultraviolet, Reticles, Metrology, Semiconductors, Optics manufacturing, Reliability, Optical imaging, Manufacturing

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Proceedings Article | 16 August 2002 Paper

OPC aware mask and wafer metrology

Wilhelm Maurer, Vincent Wiaux, Rik Jonckheere, Vicky Philipsen, Thomas Hoffmann, Staf Verhaegen, Kurt Ronse, Jonathan England, William Howard

Proceedings Volume 4764, (2002) https://doi.org/10.1117/12.479350

KEYWORDS: Optical proximity correction, Photomasks, Lithography, Metrology, Image processing, Scanning electron microscopy, Semiconducting wafers, Image analysis, Transistors, Line edge roughness

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Proceedings Article | 16 August 2002 Paper

Printability of hard and soft defects in 193-nm lithography

Vicky Philipsen, Rik Jonckheere, Stephanie Kohlpoth, Christoph Friedrich, Juan Andres Torres

Proceedings Volume 4764, (2002) https://doi.org/10.1117/12.479336

KEYWORDS: Reticles, Optical proximity correction, Photomasks, Scanning electron microscopy, Phase shifts, Opacity, Semiconducting wafers, Printing, Particles, Inspection

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Proceedings Article | 1 August 2002 Paper

Defect printability for 100-nm design rule using 193nm lithography

Vicky Philipsen, Rik Jonckheere, Stephanie Kohlpoth, Andres Torres

Proceedings Volume 4754, (2002) https://doi.org/10.1117/12.476978

KEYWORDS: Reticles, Printing, Chromium, Phase shifts, Opacity, Scanning electron microscopy, Semiconducting wafers, 193nm lithography, Inspection, Photomasks

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Proceedings Article | 30 July 2002 Paper

Assessment of OPC effectiveness using two-dimensional metrics

Vincent Wiaux, Vicky Philipsen, Rik Jonckheere, Geert Vandenberghe, Staf Verhaegen, Thomas Hoffmann, Kurt Ronse, William Howard, Wilhelm Maurer, Moshe Preil

Proceedings Volume 4691, (2002) https://doi.org/10.1117/12.474588

KEYWORDS: Reticles, Optical proximity correction, Photomasks, Scanning electron microscopy, Semiconducting wafers, Critical dimension metrology, Optical lithography, Metrology, Printing, Logic

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A complete evaluation of the optical proximity effects (OPE) and of their corrections (OPC) requires a quantitative description of two-dimensional (2D) parameters, both at resist- and at reticle-level. Because the 2D behaviour at line-ends and at line-corners can become a limiting factor for the yield, it should be taken into account when characterising a process, just as the CD- and pitch-linearity are already kept under control. This implies the measurement of 2D-metrics in a precise way. We used an SEM Image Analysis tool (ProDATA SIAM) to define and measure various OPC-relevant metrics for a C013 process. For the METAL (M1) process, we show that the overlap between line-ends of M1-trenches and underlying nominal contacts is a relevant metric to describe the effectiveness of hammerheads. Moreover, it is an interesting metric to combine with the CD process window. For the GATE process, we demonstrate that for a given set of metrics there is a degree of OPC aggressiveness beyond which it is not worth to go. We considered both line-end shortening (LES) and corner rounding affecting the poly linewidth close to a contact pad, and this on various logic circuits having received different degrees of fragmentation. Finally the knowledge of the actual line-end contour on the reticle allows one to simulate separately the printing effect of that area loss at reticle line-ends. The area loss measured by comparing the extracted contour to the target one is regarded as a combination of pull-back and area loss at corners. For our C013 gate process, and for the 130nm lines at a 1:1.25 duty cycle, those two parameters contribute together to approximetely 40% of the measured LES in the resist. This fact raises the question of specifications on 2D reticle parameters. We also find a linear correlation between the area loss at reticle line-end corners and the corresponding increase of LES on the wafer, which suggests a way towards putting specifications on the reticle line-ends.

Proceedings Article | 30 July 2002 Paper

Aerial image simulations of soft and phase defects in 193-nm lithography for 100-nm node

Frank Driessen, Paul van Adrichem, Vicky Philipsen, Rik Jonckheere, Hua-Yu Liu, Linard Karklin

Proceedings Volume 4691, (2002) https://doi.org/10.1117/12.474498

KEYWORDS: Binary data, Photomasks, Printing, Critical dimension metrology, Lithography, Antimony, Reticles, Chromium, Transparency, Resolution enhancement technologies

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Proceedings Article | 11 March 2002 Paper

2001 update on the SEMI Standards Mask Qualification Terminology Task Force

Rik Jonckheere

Proceedings Volume 4562, (2002) https://doi.org/10.1117/12.458299

KEYWORDS: Photomasks, Semiconducting wafers, Printing, Metrology, Reticles, Mask making, Critical dimension metrology, Optical proximity correction, Optical lithography, Manufacturing

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Proceedings Article | 14 September 2001 Paper

Model-based OPC for first-generation 193-nm lithography

Kevin Lucas, James Word, Geert Vandenberghe, Staf Verhaegen, Rik Jonckheere

Proceedings Volume 4346, (2001) https://doi.org/10.1117/12.435670

KEYWORDS: Optical proximity correction, Reticles, Model-based design, Semiconducting wafers, Data modeling, 193nm lithography, Lithography, Optical lithography, Scanning electron microscopy, Process modeling

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Proceedings Article | 14 September 2001 Paper

CD control for two-dimensional features in future technology nodes

Staf Verhaegen, Ronald Gordon, Rik Jonckheere, Martin McCallum, Kurt Ronse

Proceedings Volume 4346, (2001) https://doi.org/10.1117/12.435736

KEYWORDS: Critical dimension metrology, Reticles, Monte Carlo methods, Diffraction, Lithography, Photomasks, Computer simulations, Optical proximity correction, Sodium, Optical lithography

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Proceedings Article | 5 September 2001 Paper

Reticle quality needs for advanced 193-nm lithography

Rik Jonckheere, Geert Vandenberghe, Vincent Wiaux, Staf Verhaegen, Kurt Ronse

Proceedings Volume 4409, (2001) https://doi.org/10.1117/12.438345

KEYWORDS: Photomasks, Optical proximity correction, Reticles, Semiconducting wafers, Printing, 193nm lithography, Critical dimension metrology, Metrology, Lithography, Optical lithography

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Proceedings Article | 5 September 2001 Paper

(Sub-) 100-nm gate patterning using 248-nm alternating PSM

Geert Vandenberghe, Patrick Jaenen, Rik Jonckheere, Kurt Ronse, Olivier Toublan

Proceedings Volume 4409, (2001) https://doi.org/10.1117/12.438406

KEYWORDS: Photomasks, Phase shifts, Reticles, Semiconducting wafers, Etching, Binary data, Optical lithography, Cadmium sulfide, Lithography, Overlay metrology

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Proceedings Article | 14 June 1999 Paper

Role of LV-SEM reticle CD measurements on DUV lithography

Thomas Marschner, Ivan Pollentier, Goedele Potoms, Rik Jonckheere, Kurt Ronse, Marco Polli

Proceedings Volume 3677, (1999) https://doi.org/10.1117/12.350870

KEYWORDS: Reticles, Semiconducting wafers, Critical dimension metrology, Scanning electron microscopy, Photomasks, Optical testing, Lithography, Etching, Algorithm development, Deep ultraviolet

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Proceedings Article | 18 December 1998 Paper

Some challenges for mask making to keep up with the roadmap

Rik Jonckheere, John Randall, Thomas Marschner, Kurt Ronse

Proceedings Volume 3546, (1998) https://doi.org/10.1117/12.332839

KEYWORDS: Photomasks, Critical dimension metrology, Semiconducting wafers, Reticles, Optical proximity correction, Mask making, Lithography, Image processing, Scanning electron microscopy, Scanners

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Proceedings Article | 29 June 1998 Paper

Reduction of mask-induced CD errors by optical proximity correction

John Randall, Alexander Tritchkov, Rik Jonckheere, Patrick Jaenen, Kurt Ronse

Proceedings Volume 3334, (1998) https://doi.org/10.1117/12.310737

KEYWORDS: Photomasks, Critical dimension metrology, Optical proximity correction, Semiconducting wafers, Reticles, Printing, Lithography, Imaging systems, Optical components, Nonlinear optics

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Proceedings Article | 28 July 1997 Paper

Automated OPC for application in advanced lithography

Kurt Ronse, Alexander Tritchkov, John Randall, Rik Jonckheere, Kouros Ghandehari, Luc Van den Hove

Proceedings Volume 3096, (1997) https://doi.org/10.1117/12.277300

KEYWORDS: Optical proximity correction, Lithography, Photomasks, Optical lithography, Reticles, Deep ultraviolet, Printing, Mask making, Data modeling, Optics manufacturing

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Proceedings Article | 27 December 1996 Paper

4X reticles with 3% linewidth control for the development of 0.18-um lithography

Rik Jonckheere, Jozef Moonens, Goedele Potoms, Inga Bovie, Luc Van den Hove

Proceedings Volume 2884, (1996) https://doi.org/10.1117/12.262811

KEYWORDS: Photomasks, Optical proximity correction, Reticles, Photoresist processing, Lithography, Mask making, Etching, Electron beam lithography, Semiconducting wafers, Opacity

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Proceedings Article | 7 June 1996 Paper

Top-surface imaging and optical proximity correction: a way to 0.18-um lithography at 248 nm

Anne-Marie Goethals, J. Vertommen, Frieda Van Roey, Anthony Yen, Alexander Tritchkov, Kurt Ronse, Rik Jonckheere, Luc Van den Hove

Proceedings Volume 2726, (1996) https://doi.org/10.1117/12.240910

KEYWORDS: Optical proximity correction, Anisotropy, Lithography, Photoresist processing, Deep ultraviolet, Image processing, Reticles, Etching, Chemistry, Critical dimension metrology

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Proceedings Article | 7 June 1996 Paper

Optical proximity effects and correction strategies for chemical-amplified DUV resists

Maaike Op de Beeck, Bert Bruggeman, Harry Botermans, Veerle Van Driessche, Anthony Yen, Alexander Tritchkov, Rik Jonckheere, Kurt Ronse, Luc Van den Hove

Proceedings Volume 2726, (1996) https://doi.org/10.1117/12.240927

KEYWORDS: Etching, Optical proximity correction, Photomasks, Critical dimension metrology, Chlorine, Scanning electron microscopy, Deep ultraviolet, Silicon, Lithium, Photoresist processing

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Proceedings Article | 27 May 1996 Paper

Hierarchical e-beam proximity correction in mask making

Ulrich Hofmann, Christian Kalus, Anja Rosenbusch, Rik Jonckheere, Andrew Hourd

Proceedings Volume 2723, (1996) https://doi.org/10.1117/12.240465

KEYWORDS: Photomasks, Mask making, Optical proximity correction, Computer aided design, Raster graphics, Wafer-level optics, Reticles, Scattering, Optical calibration, Fractal analysis

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Proceedings Article | 17 May 1994 Paper

Optimization of the optical phase shift in attenuated phase-shifting masks and application to quarter-micrometer deep-UV lithography for logics

Kurt Ronse, Rainer Pforr, Ki-Ho Baik, Rik Jonckheere, Luc Van den Hove

Proceedings Volume 2197, (1994) https://doi.org/10.1117/12.175476

KEYWORDS: Phase shifts, Photomasks, Lithography, Manufacturing, Transmittance, Deep ultraviolet, Phase measurement, Tolerancing, Optics manufacturing, Refractive index

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Proceedings Article | 17 May 1994 Paper

Improvement of the focus exposure latitude using optimized illumination and mask design

Rainer Pforr, Kurt Ronse, Patrick Jaenen, Rik Jonckheere, Luc Van den Hove, Peter van Oorschot, Paul Luehrmann

Proceedings Volume 2197, (1994) https://doi.org/10.1117/12.175467

KEYWORDS: Photomasks, Aluminum, Phase shifts, Halftones, Lithographic illumination, Lithography, Electroluminescence, Logic, Semiconducting wafers, Chromium

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Proceedings Article | 1 May 1994 Paper

Effects on IC quality of 5X reticle repair using FIB with stain reduction

Philip Prewett, Brian Martin, John Watson, Rik Jonckheere

Proceedings Volume 2196, (1994) https://doi.org/10.1117/12.174127

KEYWORDS: Reticles, Semiconducting wafers, Ion beams, Opacity, Deep ultraviolet, Plasma, Lithography

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Proceedings Article | 8 August 1993 Paper

New resolution-enhancing mask for projection lithography based on in-situ off-axis illumination

Rainer Pforr, Rik Jonckheere, Wolfgang Henke, Kurt Ronse, Patrick Jaenen, Ki-Ho Baik, Luc Van den Hove

Proceedings Volume 1927, (1993) https://doi.org/10.1117/12.150424

KEYWORDS: Photomasks, Diffraction gratings, Optical lithography, Light sources, Diffraction, Glasses, Semiconducting wafers, Computer generated holography, Lithographic illumination, Phase shifts

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Proceedings Article | 8 August 1993 Paper

Comparison of various phase-shift strategies and application to 0.35-um ASIC designs

Kurt Ronse, Rik Jonckheere, Casper Juffermans, Luc Van den Hove

Proceedings Volume 1927, (1993) https://doi.org/10.1117/12.150416

KEYWORDS: Photomasks, Halftones, Phase shifts, Phase shifting, Optical lithography, Semiconducting wafers, Transmittance, Mask making, Photoresist processing, Printing

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Proceedings Article | 1 June 1992 Paper

In-process image detection technique for determination of overlay and image quality for ASM-L wafer stepper

Rainer Pforr, Stefan Wittekoek, Roland Van Den Bosch, Luc Van den Hove, Rik Jonckheere, Theo Fahner, Rolf Seltmann

Proceedings Volume 1674, (1992) https://doi.org/10.1117/12.130355

KEYWORDS: Optical alignment, Semiconducting wafers, Diffraction gratings, Image quality, Information operations, Diffraction, Refractive index, Oxides, Overlay metrology, Silicon

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