Ms. Bríd M. Connolly Profile

Bríd M. Connolly

SPIE Involvement:

Author

Area of Expertise:

photomasks , EUV , NIL

Websites:

Company Website

Publications (29)

Proceedings Article | 13 March 2024 Presentation

NIL mastering using advanced manufacturing imaging technology

Bríd Connolly

Proceedings Volume 12914, 1291412 (2024) https://doi.org/10.1117/12.3024870

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Proceedings Article | 21 November 2023 Presentation + Paper

Mask error and its contribution to OPC model error for an EUV via layer

Adam Lyons, Tom Wallow, Chris Spence, Bríd Connolly, Christian Beurgel, Markus Bender

Proceedings Volume 12750, 127500E (2023) https://doi.org/10.1117/12.2687699

KEYWORDS: Optical proximity correction, Semiconducting wafers, Extreme ultraviolet, Data modeling, Calibration, Metrology, Finite element methods, Critical dimension metrology, Contour modeling, Computer simulations

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Proceedings Article | 1 May 2019 Presentation + Paper

Experimental investigation of a high-k reticle absorber system for EUV lithography

Jo Finders, Robbert de Kruif, Frank Timmermans, Jara García Santaclara, Brid Connely, Markus Bender, Frank Schurack, Takahiro Onoue, Yohei Ikebe, Dave Farrar

Proceedings Volume 10957, 1095714 (2019) https://doi.org/10.1117/12.2515496

KEYWORDS: Photomasks, Absorption, Reticles, Extreme ultraviolet lithography, Tantalum, Diffraction, Etching, Refractive index, Scanners, Distortion

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Proceedings Article | 2 August 2018 Presentation + Paper

A holistic metrology sensitivity study for pattern roughness quantification on EUV patterned device structures with mask design induced roughness

Shimon Levi, Ishai Swrtsband, Vladislav Kaplan, Ilan Englard, Kurt Ronse, Bogumila Kutrzeba-Kotowska , Gaoliang Dai, Frank Scholze, Kenslea Anne, Hayley Johanesen, Laurens Kwakman, Igor Turovets, Maxim Rabinovitch, Sven Krannich, Nikolai Kasper, Brid Connolly, Romy Wende, Markus Bender

Proceedings Volume 10585, 1058511 (2018) https://doi.org/10.1117/12.2297265

KEYWORDS: Metrology, Extreme ultraviolet, Photomasks, Semiconducting wafers, Signal processing, Transmission electron microscopy, Atomic force microscopy, Etching

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Proceedings Article | 9 November 2015 Paper

Absorber topography dependence of phase edge effects

Aamod Shanker, Martin Sczyrba, Brid Connolly, Laura Waller, Andy Neureuther

Proceedings Volume 9635, 96350G (2015) https://doi.org/10.1117/12.2197861

KEYWORDS: Polarization, Refractive index, Phase measurement, Near field, Absorption, Opacity, Silica, Photomasks, 193nm lithography, Semiconducting wafers, Diffraction, Phase shift keying, Critical dimension metrology, Airborne remote sensing, Finite-difference time-domain method, Panoramic photography, Binary data, Deep ultraviolet

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Proceedings Article | 26 March 2015 Paper

Characterizing the dependence of thick-mask edge effects on illumination angle using AIMS images

Aamod Shanker, Martin Sczyrba, Falk Lange, Brid Connolly, Andrew Neureuther, Laura Waller

Proceedings Volume 9426, 94260O (2015) https://doi.org/10.1117/12.2087615

KEYWORDS: Photomasks, Polarization, Semiconducting wafers, Imaging systems, Printing, Spatial frequencies, Airborne remote sensing, 3D modeling, Phase retrieval, Switches

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Proceedings Article | 17 October 2014 Paper

Black border, mask 3D effects: covering challenges of EUV mask architecture for 22nm node and beyond

Natalia Davydova, Eelco van Setten, Robert de Kruif, Brid Connolly, Norihito Fukugami, Yutaka Kodera, Hiroaki Morimoto, Yo Sakata, Jun Kotani, Shinpei Kondo, Tomohiro Imoto, Haiko Rolff, Albrecht Ullrich, Ramasubramanian Kottumakulal Jaganatharaja, Ad Lammers, Dorothe Oorschot, Cheuk-Wah Man, Guido Schiffelers, Joep van Dijk

Proceedings Volume 9231, 923102 (2014) https://doi.org/10.1117/12.2066299

KEYWORDS: Deep ultraviolet, Reflectivity, Extreme ultraviolet, Photomasks, Reticles, Scanners, Aluminum, Extreme ultraviolet lithography, Atomic force microscopy, Semiconducting wafers

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Proceedings Article | 28 July 2014 Paper

Achievements and challenges of EUV mask imaging

Proceedings Volume 9256, 925602 (2014) https://doi.org/10.1117/12.2072945

KEYWORDS: Reticles, Photomasks, Extreme ultraviolet, Semiconducting wafers, Reflectivity, 3D metrology, Deep ultraviolet, Neodymium, Atomic force microscopy, Scanners

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Proceedings Article | 31 March 2014 Paper

Critical assessment of the transport of intensity equation as a phase recovery technique in optical lithography

Aamod Shanker, Martin Sczyrba, Brid Connolly, Franklin Kalk, Andy Neureuther, Laura Waller

Proceedings Volume 9052, 90521D (2014) https://doi.org/10.1117/12.2048278

KEYWORDS: Photomasks, Semiconducting wafers, Imaging systems, 3D modeling, Phase imaging, Absorption, Phase shifts, Polarization, Error analysis, Finite-difference time-domain method

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Proceedings Article | 3 October 2013 Paper

Impact of an etched EUV mask black border on imaging: part II

Natalia Davydova, Robert de Kruif, Hiroaki Morimoto, Yo Sakata, Jun Kotani, Norihito Fukugami, Shinpei Kondo, Tomohiro Imoto, Brid Connolly, Dries van Gestel, Dorothe Oorschot, David Rio, John Zimmerman, Noreen Harned

Proceedings Volume 8880, 888027 (2013) https://doi.org/10.1117/12.2027596

KEYWORDS: Deep ultraviolet, Reflectivity, Reticles, Extreme ultraviolet, Semiconducting wafers, Scanners, Extreme ultraviolet lithography, Photomasks, Optical proximity correction, Aluminum

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Proceedings Article | 1 October 2013 Paper

Experimental approach to EUV imaging enhancement by mask absorber height optimization

Natalia Davydova, Robert de Kruif, Haiko Rolff, Brid Connolly, Eelco van Setten, Ad Lammers, Dorothe Oorschot, Norihito Fukugami, Yutaka Kodera

Proceedings Volume 8886, 88860A (2013) https://doi.org/10.1117/12.2030806

KEYWORDS: Photomasks, Extreme ultraviolet, Reflectivity, Critical dimension metrology, Reticles, Calibration, Phase shifts, Refractive index, Optical proximity correction, Etching

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EUV lithography performance is improved significantly by optimizing and fine-tuning of the EUV mask. The EUV mask is an active element of the scanner optical system influencing main lithographic figure of merits such as image contrast, critical dimension uniformity (CDU), focus and overlay. The mask stack consists of Mo/Si multilayer acting as a bright field and a patterned absorber stack. In this work we will concentrate on investigation of EUV absorber. Absorber topography that is pronounced compared to the imaging wavelength of 13.5 nm, will give rise to various mask 3d effects such as shadowing or dependence of CD on feature orientation, best focus shift of different resolution structures, etc. Light interference in the absorber layer results in swinging behavior of various lithography metrics as function of the absorber height. Optimization of the mask absorber allows mitigating mask 3d effects and improving imaging performance. In particular, reduction of the absorber height mitigates the shadowing effect and relaxes requirements on Optical Proximity Correction (OPC), but can result in smaller Process Window due to lower imaging contrast and larger best focus shifts. In this work we will show results of an experimental approach to absorber height optimization. A special mask with 27 different absorber heights in the range 40-70 nm is manufactured by Toppan Photomasks. EUV reflectivity spectra are measured for the different absorber heights and an experimental swing curve is constructed. For each absorber height various resolution features are present on the mask. Lines of 27 nm and 22 nm are imaged on the wafer using the ASML EUV scanner NXE:3300B with an NA of 0.33. The experimental CD swing curve is constructed as well as HV change as a function of absorber height. The impact of the absorber height on Exposure Latitude (EL) and Dose to Size (D2S) is investigated. EL improves with increasing absorber height in some cases, however there is no clear EL gain for a 70 nm absorber compared to for example 52 nm absorber. D2S does show a clear trend through absorber height. In particular, D2S can be reduced by absorber height reduction: e.g. for 52 nm absorber D2S is 5% or 1 mJ/cm2 smaller compared to 70 nm. The experimental results are used for calibration and verification of rigorous mask 3d simulations. This knowledge is crucial for accurate OPC of production masks and allows for accurate litho simulations of EUV user cases as a basis for lithography roadmaps towards High Volume Manufacturing and High NA EUV.

Proceedings Article | 10 September 2013 Paper

Analysis of edge effects in attenuating phase-shift masks using quantitative phase imaging

Aamod Shanker, Martin Sczyrba, Brid Connolly, Andy Neureuther, Laura Waller

Proceedings Volume 8880, 88802A (2013) https://doi.org/10.1117/12.2027825

KEYWORDS: Photomasks, Polarization, Semiconducting wafers, Phase shifts, Phase imaging, Data modeling, Wafer-level optics, Imaging systems, Printing, Phase measurement

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Proceedings Article | 8 November 2012 Paper

Impact of an etched EUV mask black border on imaging and overlay

Natalia Davydova, Robert de Kruif, Norihito Fukugami, Shinpei Kondo, Vicky Philipsen, Eelco van Setten, Brid Connolly, Ad Lammers, Vidya Vaenkatesan, John Zimmerman, Noreen Harned

Proceedings Volume 8522, 852206 (2012) https://doi.org/10.1117/12.964547

KEYWORDS: Semiconducting wafers, Reticles, Photomasks, Extreme ultraviolet, Etching, Reflectivity, Deep ultraviolet, Scanning electron microscopy, Optical proximity correction, Extreme ultraviolet lithography

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There are multiple mask parameters that can be tuned to optimize the lithographic performance of the EUV photo mask[1]. One of them is the absorber height. A reduction of the absorber height allows, for example, a higher resolution patterning on mask and reduces the OPC needed for shadowing correction[1][2][5]. Downside of a thinner absorber is the increased reflectivity which manifests itself not only in the image field (contrast loss) but also in the so called light shield area or image border. The image border is a pattern free (absorber covered) area around the die on the photo mask forming the transition area between the part on the mask that is completely shielded from the exposure light by the Reticle Masking (REMA) blades and the die. The image border accommodates the finite REMA placement accuracy and the half shadow of the REMA blades allowing close spaced die printing on the wafer. When printing a die at dense spacing, which is common practice in a production environment, the image border will overlap part of the neighboring die. This causes actinic EUV and DUV out of band light reflection from the image border exposing the overlapped die area and affecting CD and contrast at the edges of the dies. For a 44 nm thick absorber we found a CD impact of 8 nm for 32 nm dense lines[3] whereas for a 55 nm thick absorber the effect was 4 nm for 27 nm dense lines[7]. Increasing the die spacing would prevent this unwanted exposure but results in an unacceptable loss of valuable wafer real estate thereby reducing the yield per wafer and is thus not a viable manufacturing solution. Optical Proximity Correction (OPC) using ASML Brion’s Tachyon NXE model at the edges of the die was proposed as possible solution to this problem[3]. An alternative is to create a so called Black Border: the reflectivity in the image border is reduced to a sufficiently low level by for example increasing the absorber thickness, add a special coating or replace the absorber with a low reflective material[4][5]. The most radical solution is removal of the absorber and the underlying multilayer down to the low reflective substrate, so-called multilayer etching[4][6]. In this paper we will present the effects of such a Black Border created by a multilayer etch on features and their placement on the reticle and the impact on CD of 27 nm dense lines on the wafer. By comparing the wafer CDU printed with and without Black Border we will determine how well the image border effect is mitigated by the multilayer etching.

Proceedings Article | 17 April 2012 Paper

PSM and thin OMOG reticles aerial imaging metrology comparison study

Yaron Cohen, Jo Finders, Shmoolik Mangan, Ilan Englard, Orion Mouraille, Maurice Janssen, Junji Miyazaki, Brid Connolly, Yosuke Kojima, Masaru Higuchi

Proceedings Volume 8352, 83520H (2012) https://doi.org/10.1117/12.919791

KEYWORDS: Photomasks, Semiconducting wafers, Metrology, Scanners, Reticles, Critical dimension metrology, Airborne remote sensing, Optical proximity correction, Phase shifts, Integrated circuit design

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Proceedings Article | 16 April 2012 Paper

EUVL mask performance and optimization

Natalia Davydova, Robert de Kruif, Eelco van Setten, Brid Connolly, Karolien Mehagnoul, John Zimmerman, Noreen Harned, Franklin Kalk

Proceedings Volume 8352, 835208 (2012) https://doi.org/10.1117/12.921209

KEYWORDS: Reflectivity, Photomasks, Apodization, Extreme ultraviolet, Extreme ultraviolet lithography, Critical dimension metrology, Refractive index, Calibration, Semiconducting wafers, Scanners

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EUV lithography requires an exposure system with complex reflective optics and an equally complex EUV dedicated reflective mask. The required high level of reflectivity is obtained by using multilayers. The multilayer of the system optics and the mask are tuned to each other. The mask is equipped with an additional patterned absorber layer. The EUV mask is an optical element with many parameters that contribute to the final image and overlay quality on the wafer and the productivity of the system. Several of these parameters can be tuned for optimal overlay, imaging and productivity results. This should be done with care because of possible interaction between parameters. We will present an overview of the EUV mask contributors to the imaging, overlay and productivity performance for the 27 nm node and below, such as multilayer and absorber stack composition, reflectivity and reflectivity uniformity. These parameters will be reviewed in the context of real-life scanner parameters for the ASML NXE:3100 and NXE:3300 system configurations. The predictions will be compared to actual exposure results on NXE:3100 systems (NA=0.25) for various masks and extrapolated to the NXE:3300 (NA=0.33). In particular, we will present extensive multilayer and absorber actinic spectral reflectance measurements of a state-ofthe art EUV mask over a range of incidence angles corresponding to an NA of 0.33 at multiple positions within the image field. The ML measurements allow calibrating ML stack for imaging simulations. It allows also the estimation of mask-induced apodization effects having impact on overlay. In general, the reflectivity measurements will give detailed variations over the image field of mask parameters such as ML centroid wavelength and absorber reflectivity which contribute to CD uniformity. Such a relation will be established by means of rigorous full stack imaging simulations taking into account optical properties of the coming NXE:3300 system. Based on this investigation we will propose optimal EUV mask parameters for the 22 nm node EUV lithography and below, to provide guidance for mask manufacturers to support the introduction of EUV High Volume Manufacturing.

Proceedings Article | 16 April 2012 Paper

Impact of reticle absorber on the imaging properties in ArFi lithography

Jo Finders, O. Mouraille, A. Bouma, A. Ngai, K. Grim, J. van Praagh, C. Toma, J. Miyazaki, M. Higuchi, Y. Kojima, B. Connolly, I. Englard, Y. Cohen, S. Mangan, Michael Ben Yishai, Karine Jullian

Proceedings Volume 8352, 83520G (2012) https://doi.org/10.1117/12.918018

KEYWORDS: Reticles, Photomasks, Semiconducting wafers, Critical dimension metrology, Scanners, Lithography, Metrology, Scatterometry, Immersion lithography, Logic

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Proceedings Article | 4 April 2012 Paper

ArFi lithogrphy optimization for thin OMOG reticle with fast aerial imaging

Yaron Cohen, Jo Finders, Shmoolik Mangan, Ilan Englard, Orion Mouraille, Maurice Janssen, Junji Miyazaki, Brid Connolly, Yosuke Kojima, Masaru Higuchi

Proceedings Volume 8324, 83240B (2012) https://doi.org/10.1117/12.918049

KEYWORDS: Photomasks, Semiconducting wafers, Scanners, Reticles, Critical dimension metrology, Lithography, Metrology, Calibration, Airborne remote sensing, 3D metrology

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Proceedings Article | 15 February 2012 Paper

Programmed resist sidewall profiles using subresolution binary grayscale masks for Si-photonics applications

Ofir Gan, Paul Allen, Assia Barkai, Peter Buck, Brid Connolly, Harel Frish, Massimiliano Pindo

Proceedings Volume 8249, 82490W (2012) https://doi.org/10.1117/12.907275

KEYWORDS: Photomasks, Calibration, Lithography, Photoresist materials, Transmittance, Semiconducting wafers, Etching, Manufacturing, Data modeling, Silicon

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Proceedings Article | 14 October 2011 Paper

Mask aspects of EUVL imaging at 27nm node and below

Natalia Davydova, Eelco van Setten, Sang-In Han, Mark van de Kerkhof, Robert de Kruif, Dorothe Oorschot, John Zimmerman, Ad Lammers, Brid Connolly, Frank Driessen, Anton van Oosten, Mircea Dusa, Youri van Dommelen, Noreen Harned, Jiong Jiang, Wei Liu, Hoyoung Kang, Hua-yu Liu

Proceedings Volume 8166, 816624 (2011) https://doi.org/10.1117/12.896816

KEYWORDS: Reflectivity, Photomasks, Extreme ultraviolet, Extreme ultraviolet lithography, Apodization, Optical proximity correction, Photoresist processing, Scanners, Semiconducting wafers, Multilayers

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Proceedings Article | 19 May 2011 Paper

193-nm radiation durability study of MoSi binary mask and resulting lithographic performance

Isabelle Servin, Jérôme Belledent, Laurent Pain, Brid Connolly, Martin Sczyrba, Matt Lamantia

Proceedings Volume 8081, 80810X (2011) https://doi.org/10.1117/12.899173

KEYWORDS: Photomasks, Semiconducting wafers, Critical dimension metrology, Scanners, SRAF, Binary data, Lithography, Cadmium, Metrology, Scattering

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Proceedings Article | 2 April 2011 Paper

DOE experiment for scattering bars optimization at the 90nm node

G. Bouton, B. Connolly, D. Courboin, A. Di Giacomo, F. Gasnier, R. Lallement, D. Parker, M. Pindo, J. C. Richoilley, F. Royere, A. Rameau-Savio, M. Tissier

Proceedings Volume 7985, 79850R (2011) https://doi.org/10.1117/12.896341

KEYWORDS: Photomasks, Critical dimension metrology, Inspection, Diffractive optical elements, Optical proximity correction, Scattering, Scanning electron microscopy, Semiconducting wafers, Lithography, Manufacturing

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Scattering bars (SB) are sub-resolution lines added to the original database during Resolution Enhancement Techniques (RET) treatments. Their goal is stabilizing the CD of the adjacent polygons (by suppressing or reducing secondary diffraction waves). SB increase the process window in the litho process by lowering the first derivative of the CD. Moreover, the detailed knowledge of SB behavior around the fab working point is a must for future shrinks and for preparing the next technology nodes. SB are inserted in the generation of critical levels for STMicroelectronics 90 nm technology embedded memories before invoking the Model for Optical Proximity Corrections (MBOPC). This allows the software to calculate their contribution to the intensity in the aerial image and integrate their effects in Edge Proximity Error (EPE) corrections. However the Rule-Based insertion of these assist features still leaves behind occurrences of conflicting priorities as in the image below. (See manuscript PDF)Detection of Hot Spots in 2D simulations for die treatment validation (done on BRION equipment on each critical level before mask making) is in most cases correlated with SB singularities, at least for CD non-uniformity, bridging issues and necking in correspondence with OPC fragmentation effects. Within the framework of the MaXSSIMM project, we established a joint STMicroelectronics and Toppan Photomasks team to explore the influence of assist features (CD, distance), convex and concave corner rounding and CD uniformity by means of specific test patterns. The proposed study concerns the algorithms used to define the mask shop input as well as the physical mask etching. A set of test cases, based on elementary test patterns, each one including a list of geometrical variations, has been defined. As the number of configurations becomes rapidly very large (tens of thousands) we had to apply Design of Experiments (DOE) algorithms in order to reduce the number of measurements to a reasonable range (a few hundred). The proposed test cells have been inserted in the scribe lanes of an engineering Gate mask of one of STMicroelectronics' high volume products. Real Hot Spots, detected in the product chosen as the test vehicle, have also been submitted to the same variations and inserted in scribe blocks. In parallel with OPC-like scribe layouts, four best-guess treatments were applied, on the same critical mask, to assess transistor performance and yield impact by standard wafer splitting on engineering lots. The advanced binary 4×6" reticle for 193nm exposure has been manufactured by Toppan Photomasks in the AMTC facility in Dresden using the standard production process on the NuFlare5000 e-beam writing platform. The exploration of the parameter space around the current working point will determine if the current process settings already represent an optimum or if there is room for significant improvement of the wafer manufacturing process.

Proceedings Article | 25 September 2010 Paper

Aging study in advanced photomasks: impact of EFM effects on lithographic performance with MoSi binary and 6% attenuated PSM masks

I. Servin, J. Belledent, M. O. Fialeyre, B. Connolly, M. Lamantia, M. Sczyrba, M. K. Jullian, B. Le Gratiet, L. Pain

Proceedings Volume 7823, 78230N (2010) https://doi.org/10.1117/12.864529

KEYWORDS: Photomasks, Critical dimension metrology, Semiconducting wafers, Reticles, Binary data, Scanning electron microscopy, Scanners, Lithography, Optical proximity correction, Metrology

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Proceedings Article | 25 September 2010 Paper

How to match without copying: an approach for APSM mask process matching using aerial imaging

M. Sczyrba, C. Romeo, F. Schurack, T. Castro, B. Connolly

Proceedings Volume 7823, 78231Z (2010) https://doi.org/10.1117/12.865236

KEYWORDS: Photomasks, Semiconducting wafers, Etching, Manufacturing, Quartz, Optical proximity correction, Airborne remote sensing, Image processing, Phase shifts, Phase shifting

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Proceedings Article | 27 May 2009 Paper

Contamination control for ArF photo masks

Joseph Gordon, Marianna Silova, Brid Connolly, Jeroen Huijbregtse, Nicolae Maxim, Larry Frisa, Christian Chovino, Colleen Weins

Proceedings Volume 7470, 74700C (2009) https://doi.org/10.1117/12.835174

KEYWORDS: Air contamination, Reticles, Photomasks, Pellicles, Humidity, Lithography, Contamination, Manufacturing, Contamination control, Optical lithography

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Advanced photolithography tools use 193 nanometer wavelength light for conventional and immersion printing. The increased energy of 193 nm (ArF) light coupled with the higher absorption cross section of most materials has lead to a dramatic increase in the rate of haze formation as compared to previously used lithographic wavelengths (248 KrF and 365 nm i-line systems). It is well known that at this short wavelength photochemical reactions are enhanced leading to progressive defect formation, or haze, on optical surfaces within microlithography tools. Therefore, strict contamination control of the optics environment is needed to avoid cumulative effects. Such measures have been implemented in lithography tools both for the optics and for the reticle during exposure. However, the patterned side of the photomask is the most sensitive element in the litho optical path for haze growth, because it is in focus and small defects will show up as printing defects. Moreover, the reticle life time depends both on rigorous contamination control for expose and transport/storage conditions (both inside and outside of the lithography tool). The litho operating cost depends directly on reticle life time. It is imperative that the industry takes the required measures to improve the airborne molecular contamination levels both in the storage part of the photolithography tool and in devices used to transport reticles outside of the tool to slow down reticle haze Past studies have shown the large effects of humidity and AMC on haze growth during storage and exposure. Therefore, significant improvements in storage and exposure environment have been implemented by many fabs to reduce the frequency of haze failures. It has also been shown that outgassing from materials surrounding the mask can influence or cause haze. It is clear that the reticle must be adequately protected from contamination sources throughout the life cycle of the reticle (both inside and outside of the lithography tool). In this paper we examine improvements in the storage conditions of reticles inside the lithography tool as well as improvements in commercial SMIF pods used in fab storage and automated handling of reticles.

Proceedings Article | 27 May 2009 Paper

Mask contribution on CD and OVL errors budgets for double patterning lithography

I. Servin, C. Lapeyre, S. Barnola, B. Connolly, R. Ploss, K. Nakagawa, P. Buck, M. McCallum

Proceedings Volume 7470, 747009 (2009) https://doi.org/10.1117/12.835171

KEYWORDS: Photomasks, Semiconducting wafers, Critical dimension metrology, Reticles, Double patterning technology, Pellicles, Lithography, Image registration, Optical alignment, Scanners

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SPIE Journal Paper | 1 January 2009

Mask characterization for double patterning lithography

Karsten Bubke, Robert de Kruif, Jan Peters, Mircea Dusa, Brid Connolly

JM3, Vol. 8, Issue 01, 011004, (January 2009) https://doi.org/10.1117/12.10.1117/1.3023078

KEYWORDS: Photomasks, Reticles, Semiconducting wafers, Overlay metrology, Double patterning technology, Lithography, Image registration, Metrology, Critical dimension metrology, Extreme ultraviolet lithography

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Proceedings Article | 17 October 2008 Paper

Optimal mask characterization by Surrogate Wafer Print (SWaP) method

Kurt Kimmel, Ingo Hoellein, Jan Hendrick Peters, Paul Ackmann, Brid Connolly, Craig West

Proceedings Volume 7122, 712219 (2008) https://doi.org/10.1117/12.801685

KEYWORDS: Photomasks, Semiconducting wafers, Scanners, Inspection, Wafer inspection, Critical dimension metrology, Printing, Metrology, Manufacturing, Defect inspection

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Traditionally, definition of mask specifications is done completely by the mask user, while characterization of the mask relative to the specifications is done completely by the mask maker. As the challenges of low-k1 imaging continue to grow in scope of designs and in absolute complexity, the inevitable partnership between wafer lithographers and mask makers has strengthened as well. This is reflected in the jointly owned mask facilities and device manufacturers' continued maintenance of fully captive mask shops which foster the closer mask-litho relationships. However, while some device manufacturers have leveraged this to optimize mask specifications before the mask is built and, therefore, improve mask yield and cost, the opportunity for post-fabrication partnering on mask characterization is more apparent and compelling. The Advanced Mask Technology Center (AMTC) has been investigating the concept of assessing how a mask images, rather than the mask's physical attributes, as a technically superior and lower-cost method to characterize a mask. The idea of printing a mask under its intended imaging conditions, then characterizing the imaged wafer as a surrogate for traditional mask inspections and measurements represents the ultimate method to characterize a mask's performance, which is most meaningful to the user. Surrogate wafer print (SWaP) is already done as part of leading-edge wafer fab mask qualification to validate defect and dimensional performance. In the past, the prospect of executing this concept has generally been summarily discarded as technically untenable and logistically intractable. The AMTC published a paper at BACUS 2007 successfully demonstrating the performance of SWaP for the characterization of defects as an alternative to traditional mask inspection [1]. It showed that this concept is not only feasible, but, in some cases, desirable. This paper expands on last year's work at AMTC to assess the full implementation of SWaP as an enhancement to mask characterization quality including defectivity, dimensional control, pattern fidelity, and in-plane distortion. We present a thorough analysis of both the technical and logistical challenges coupled with an objective view of the advantages and disadvantages from both the technical and financial perspectives. The analysis and model used by the AMTC will serve to provoke other mask shops to prepare their own analyses then consider this new paradigm for mask characterization and qualification.

Proceedings Article | 2 May 2008 Paper

Wafer based mask characterization for double patterning lithography

Robert de Kruif, Karsten Bubke, Gert-Jan Janssen, Eddy van der Heijden, Jörg Fochler, Mircea Dusa, Jan Hendrik Peters, Paul de Haas, Brid Connolly

Proceedings Volume 6792, 679204 (2008) https://doi.org/10.1117/12.798515

KEYWORDS: Reticles, Semiconducting wafers, Photomasks, Lithography, Double patterning technology, Overlay metrology, Photoresist processing, Image registration

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Proceedings Article | 30 October 2007 Paper

Mask characterization for double patterning lithography

Karsten Bubke, Eric Cotte, Jan Hendrik Peters, Robert de Kruif, Mircea Dusa, Joerg Fochler, Brid Connolly

Proceedings Volume 6730, 67301H (2007) https://doi.org/10.1117/12.747006

KEYWORDS: Photomasks, Reticles, Critical dimension metrology, Overlay metrology, Image registration, Semiconducting wafers, Lithography, Double patterning technology, Extreme ultraviolet lithography, Metrology

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Double patterning (DPT) lithography is seen industry-wide as an intermediate solution for the 32nm node if high index immersion as well as extreme ultraviolet lithography are not ready for a timely release for production. Apart from the obvious drawbacks of additional exposure, processing steps and the resulting reduced throughput, DPT possesses a number of additional technical challenges. This relates to, e.g., exposure tool capability, the actual applied process in the wafer fab but also to mask performance and metrology. In this paper we will address the mask performance. To characterize the mask performance in an actual DPT process, conventional parameters need to be re-evaluated. Furthermore new parameters might be more suitable to describe mask capability. This refers to, e.g., reticle to reticle overlay but also to CD differences between masks of a DPT reticle set. A DPT target of reticle to reticle induced overlay of 6nm, 3σ at mask level was proposed recently for the 32nm node. The results show that this target can be met. Besides that, local CD variations and local displacement become critical. Finally, the actual mask metrology for determination of these parameters might not be trivial and needs to be set up and characterized properly. In this paper we report on the performance of two-reticle sets based on a design developed to study the impact of mask global and local placement errors on a DPT dual line process. In a first step we focus on reticle to reticle overlay. The overlay between two masks evaluated for different wafer overlay targets is compared with measurements on actual resolution structures. In a second step, mask to mask CD variations are addressed. Off-target CD differences as well as variations of CD signatures on both reticles of a set are investigated. Finally, local CD variations and local displacements are examined. To this aim, local variations of adjacent structures on the reticle are characterized. The contribution of local effects to the overall CD and registration budget is estimated.

Showing 5 of 29 publications

Conference Committee Involvement (2)

38th European Mask and Lithography Conference

19 June 2023 | Dresden, Germany

33rd European Mask and Lithography Conference

26 June 2017 | Dresden, Germany

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