Mr. Christian Buergel Profile

Christian Buergel

Senior Member of Technical Staff at Advanced Mask Techn Ctr GmbH Co KG

SPIE Involvement:

Author

Area of Expertise:

Electron beam patterning , Resist processing , Mask process corrections

Publications (25)

Proceedings Article | 12 November 2024 Presentation + Paper

3-dimensional, high-resolution patterning of quartz mask substrates

Christian Bürgel, Martin Sczyrba, Haiko Rolff, Benjamin Schwiegel

Proceedings Volume 13216, 132161G (2024) https://doi.org/10.1117/12.3034679

KEYWORDS: Etching, Coating, Quartz, Scanning electron microscopy, Optical alignment, Design, 3D mask effects, Optical lithography, Manufacturing, Image processing

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In recent years, new technologies in applied optics and photonics have emerged, which go beyond the classic projection lithography. These new devices are used to guide or modify light and its properties. Applications range from wave guides in the area of virtual, augmented, or mixed reality (VR/AR/MR), over meta-lenses and computer-generated holograms (CGH) to gratings which amplify or modify laser light. All these applications have different requirements to the optical elements. Arbitrary orientation is a common characteristic in the 2-dimensional space, and meta lenses adding arbitrary shapes with high resolution requirements. 3 dimensional properties like blazed, slanted, staircase or pyramid profiles at various depth add further complexity. All these characteristics come along with high resolution demands below 100nm, which is required for patterns across all depths or heights. Typically, these structures are patterned onto the final device substrate using nano-imprint lithography or are created in glass, which is then used directly as an optical element. Mask quartz substrates are an ideal material for both final applications and come with the benefit of using well known advanced photomask manufacturing technology under highest quality standards to structure them. In this work, we will present the usage of mask technology to generate such complex patterns. In particular, the application of multiple eBeam exposures and Quartz etches can generate 3D topographies in glass which allow very precise alignment placement and high resolution of such pattern. It will be shown that inter-mixing gratings of different etch depths, meta-atoms with variable heights but also random dots for CHGs or similar can be generated. Although many of the used processes have a proven history respectively, special attention was paid to the combination and interaction of these processes to achieve the desired capabilities. We will report on the general approach for the individual processes, concluding with some example capability results and an outlook for future developments.

Proceedings Article | 26 September 2019 Presentation + Paper

Loading effect correction set up by supplementing CD measurement analysis with machine learning

Christian Bürgel, Martin Sczyrba, Clemens Utzny

Proceedings Volume 11148, 111480C (2019) https://doi.org/10.1117/12.2539821

KEYWORDS: Critical dimension metrology, Machine learning, Photomasks, Etching, Scanning electron microscopy, Convolution, Semiconductors, Quality measurement, Environmental sensing, Manufacturing

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With semiconductor technology approaching and exceeding 10 nm design rules the quality requirements for photomasks are continuously tightening. One of the crucial parameters is improved control of the critical dimension (CD) across the photomask. As long as linearity and through pitch effects are not involved, the quality measure is typically defined as CD uniformity. This parameter is normally measured on repeating structures of same size and shape, which are not necessarily placed in identical environments. Density dependent process effects, also called loading effects (LE), pose a challenge for the required CD control. There are several possible contributors to this kind of error within the mask manufacturing flow, such as etch driven loading effects, fogging effects during 50kV exposure and develop driven loading effects. All of these operate at different working ranges, starting at millimeters going down to only a few 100 μm scale. It is comparably easy to derive models for large scale phenomena like etch loading or fogging effects, in contrast to that it is not as straight forward to find suitable models for very short-range effects. A large amount of CD measurements taken by CD SEM is needed to identify such signals of low magnitude and short scales, which make the setup very resource intensive. Furthermore, this methodology requires artificial designs and test structures which aim to sample only the effect of interest. In this paper we present a strategy which combines CD SEM measurements from dedicated test masks with the results from regular product masks. The aim is the derivation and validation of the loading effect correction range and strength. In the first step the data from test masks is analyzed to set up the basic correction parameters. Following this, the approach is supplemented by product data where we combine mask CD and design data. The clear field distribution of the design is convoluted with respect to a hierarchy of length scales. This data is the input for a support vector machine analysis. Thus, we employ a flat machine learning algorithm. However, the input data has been set up to reflect multiple layers of convolution. This particular approach has been chosen, as each convolution length scale is associated with mask process properties, thus alleviating the burden of interpretation which typically mars the interpretation of models obtained by machine learning approaches.

Proceedings Article | 29 August 2019 Paper

Necessity is the mother of invention: support vector machines for CD control

Christian Bürgel, Martin Sczyrba, Clemens Utzny

Proceedings Volume 11177, 1117709 (2019) https://doi.org/10.1117/12.2535745

KEYWORDS: Machine learning, Data modeling, Critical dimension metrology, Performance modeling, Process control, Visualization, Data centers, Solids, Data processing, Optical inspection

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The currently increasing demand for photo-masks in the regime of the 14nm technology drives many initiatives towards capacity and throughput increase of existing production line. Such improvements are facilitated by improved control mechanisms of the tools and processes used within a production line. While process control of long range parameters such as the average CD behavior is demanding yet conceptually well understood, other parameters such as the small scales CD properties are quite often elusive to process control. These properties often require a dedicated test mask to be processed in order to be validated. In this paper we introduce a systematic approach towards a product based monitoring of small scale CD behavior which uses a CD characteristic extracted from the defect inspection process. This characteristic represents the influence of CD relevant processes starting from 200m up to 4000 m. Large variations in the scale and magnitude of the CD characteristic are induced by layout specific design variations. However, the shape of these distinct curves is remarkably similar, which enables their use for monitoring as well as controlling the mask processes on the above stated spatial scales. In this paper it is demonstrated, that a meaningful process evaluation can be performed by using the classification capabilities of the support vector machines. The small scales CD characteristics presented in figure 1 originate from two distinct tools. Matching of the two tools can be assessed by training a support vector machine to classify the small scales CD characteristics according to their origin. The classification performance on the resampled training set as well as on the validation set is a robust measure for tool matching. The results of this approach are depicted in figure 2. The left panel shows the AUC statistics of bootstrapping resamples for tool comparison “A”. In this case no noticeable difference between the two tools is found (an average AUC of 0.55 suggest no learnable difference). This is contrasted by the tool comparison “B”, here the classifier has an average AUC of 0.75, indicating a learnable difference in the tool performances. This result is backed by the process understand of both tool types.

Proceedings Article | 27 June 2019 Paper

Deal gently with the bird you are trying to catch: small scale CD control with machine learning

Christian Bürgel, Martin Sczyrba, Clemens Utzny

Proceedings Volume 11178, 111780L (2019) https://doi.org/10.1117/12.2534978

KEYWORDS: Critical dimension metrology, Machine learning, Data modeling, Process control, Visualization, Data centers, Solids, Detection and tracking algorithms, Data processing, Optical inspection

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Proceedings Article | 12 November 2018 Presentation + Paper

Mask process correction validation for multi-beam mask lithography

Ingo Bork, Peter Buck, Christian Bürgel, Bhardwaj Durvasula, Stefan Eder-Kapl, Peter Hudek, Michal Jurkovic, Jan Klikovits, Elmar Platzgummer, Jed Rankin, Rao Nageswara, Murali Reddy, Christoph Spengler

Proceedings Volume 10810, 108100K (2018) https://doi.org/10.1117/12.2503284

KEYWORDS: Photomasks, SRAF, Calibration, Cadmium, Lithography, Double patterning technology, Data modeling, Etching, Vestigial sideband modulation, Scanning electron microscopy

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Proceedings Article | 3 October 2018 Presentation + Paper

Multiple exposure on single blank for electron-beam writer characterization

André Eilert, Michael Finken, Christian Bürgel, Mark Herrmann, Ronald Hellriegel, Rico Nestler, Oliver Löffler, Frank Hübenthal, Rico Büttner, Katja Steidel

Proceedings Volume 10810, 108101G (2018) https://doi.org/10.1117/12.2501760

KEYWORDS: Photoresist processing, Photomasks, Critical dimension metrology, Critical dimension scanning electron microscopy, Electrons, Materials processing, Thin films, Scatterometry, Optical proximity correction, Electron beam lithography, Electron beams

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Proceedings Article | 3 October 2018 Paper

Applying MPC for EUV mask fabrication

Dai Tsunoda, Yohei Torigoe, Yutaro Sato, Masakazu Hamaji, Gek-Soon Chua, Christian Bürgel

Proceedings Volume 10810, 108101H (2018) https://doi.org/10.1117/12.2502068

KEYWORDS: Photomasks, Extreme ultraviolet, Etching, Calibration, Extreme ultraviolet lithography, Critical dimension metrology, Mask making

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Proceedings Article | 10 May 2016 Paper

Influence of different developer nozzle types on the photomask performance

Cindy Schmädicke, Axel Feicke, Mark Herrmann, Christian Bürgel

Proceedings Volume 9984, 998403 (2016) https://doi.org/10.1117/12.2240859

KEYWORDS: Photomasks, SRAF, Standards development, Reticles, Critical dimension metrology, Line width roughness, Inspection, Binary data, Scanning electron microscopy, Electronics

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Proceedings Article | 23 October 2015 Paper

Rule-based OPC and MPC interaction for implant layers

Nan Fu, Guoxiang Ning, Florian Werle, Stefan Roling, Sandra Hecker, Paul Ackmann, Christian Buergel

Proceedings Volume 9635, 96351H (2015) https://doi.org/10.1117/12.2197195

KEYWORDS: Reticles, Semiconducting wafers, Optical proximity correction, Logic, Lithography, Photomasks, Data modeling, Tolerancing, Critical dimension metrology, Silicon

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Proceedings Article | 17 October 2014 Paper

14-nm photomask simulation sensitivity

John Sturtevant, Peter Buck, Steffen Schulze, David Fryer, Edita Tejnil, Kostas Adam, Michael Lam, Chris Clifford, Mike Oliver, Ana Armeanu, Franklin Kalk, Kent Nakagawa, Guoxiang Ning, Paul Ackmann, Fritz Gans, Christian Buergel

Proceedings Volume 9231, 92310I (2014) https://doi.org/10.1117/12.2066483

KEYWORDS: Photomasks, 3D modeling, Semiconducting wafers, Optical proximity correction, Data modeling, Calibration, Manufacturing, Photoresist materials, Metrology, Refractive index

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Proceedings Article | 8 October 2014 Paper

Mask model calibration for MPC applications utilizing shot dose assignment

Ingo Bork, Peter Buck, Sankaranarayanan Paninjath, Kushlendra Mishra, Christian Bürgel, Keith Standiford, Gek Soon Chua

Proceedings Volume 9235, 92350A (2014) https://doi.org/10.1117/12.2069617

KEYWORDS: Calibration, Critical dimension metrology, Scanning electron microscopy, Cadmium, Etching, Error analysis, Visualization, Photomasks, Vestigial sideband modulation, Statistical modeling

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Shrinking feature sizes and the need for tighter CD (Critical Dimension) control require the introduction of new technologies in mask making processes. One of those methods is the dose assignment of individual shots on VSB (Variable Shaped Beam) mask writers to compensate CD non-linearity effects and improve dose edge slope. Using increased dose levels only for most critical features, generally only for the smallest CDs on a mask, the change in mask write time is minimal while the increase in image quality can be significant. However, this technology requires accurate modeling of the mask effects, especially the CD/dose dependencies. This paper describes a mask model calibration flow for Mask Process Correction (MPC) applications with shot dose assignment. The first step in the calibration flow is the selection of appropriate test structures. For this work, a combination of linespace patterns as well as a series of contact patterns are used for calibration. Features sizes vary from 34 nm up to several micrometers in order to capture a wide range of CDs and pattern densities. After mask measurements are completed the results are carefully analyzed and measurements very close to the process window limitation and outliers are removed from the data set. One key finding in this study is that by including patterns exposed at various dose levels the simulated contours of the calibrated model very well match the SEM contours even if the calibration was based entirely on gauge based CD values. In the calibration example shown in this paper, only 1D line and space measurements as well as 1D contact measurements are used for calibration. However, those measurements include patterns exposed at dose levels between 75% and 150% of the nominal dose. The best model achieved in this study uses 2 e-beam kernels and 4 kernels for the simulation of development and etch effects. The model error RMS on a large range of CD down to 34 nm line CD is 0.71 nm. The calibrated model is then used to generate 2D contours for line ends, space ends and contacts and those contours are compared to SEM images. For all patterns, including those very close to the resolution limit, very good contour overlay is achieved. It appears that by including the various dose levels in the calibration a very good separation of the e-beam model components from the etch components is possible and that this also results in very accurate 2D model quality. In conclusion, very accurate mask model calibration is achieved for mask processes using shot dose assignment. Standard test patterns can be used for calibration if they include the dose variations intended for correction.

SPIE Journal Paper | 2 December 2013

Impact of 14-nm photomask uncertainties on computational lithography solutions

John Sturtevant, Edita Tejnil, Timothy Lin, Steffen Schulze, Peter Buck, Franklin Kalk, Kent Nakagawa, GuoXiang Ning, Paul Ackmann, Fritz Gans, Christian Buergel

JM3, Vol. 13, Issue 01, 011004, (December 2013) https://doi.org/10.1117/12.10.1117/1.JMM.13.1.011004

KEYWORDS: Photomasks, Semiconducting wafers, 3D modeling, Optical proximity correction, Critical dimension metrology, Calibration, Photoresist materials, Computational lithography, Data modeling, Mathematical modeling

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Proceedings Article | 10 September 2013 Paper

The impact of 14nm photomask variability and uncertainty on computational lithography solutions

John Sturtevant, Edita Tejnil, Peter Buck, Steffen Schulze, Franklin Kalk, Kent Nakagawa, Guoxiang Ning, Paul Ackmann, Fritz Gans, Christian Buergel

Proceedings Volume 8880, 88800F (2013) https://doi.org/10.1117/12.2030733

KEYWORDS: Photomasks, Semiconducting wafers, 3D modeling, Optical proximity correction, Calibration, Photoresist materials, Critical dimension metrology, Manufacturing, Data modeling, Mathematical modeling

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Proceedings Article | 9 September 2013 Paper

Entering mask process correction era for EUV mask manufacturing

Christian Bürgel, Keith Standiford, Gek Soon Chua

Proceedings Volume 8880, 888008 (2013) https://doi.org/10.1117/12.2023093

KEYWORDS: Data modeling, Photomasks, Etching, Error analysis, Critical dimension metrology, Inspection, Calibration, Extreme ultraviolet, Statistical modeling, Electronic design automation

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Proceedings Article | 9 September 2013 Paper

A new mask linearity specification for EUV masks based on time dependent dielectric breakdown requirements

Keith Standiford, Christian Bürgel

Proceedings Volume 8880, 88801M (2013) https://doi.org/10.1117/12.2023109

KEYWORDS: Photomasks, Metals, Reliability, Semiconducting wafers, Extreme ultraviolet, Line edge roughness, Dielectric breakdown, Backscatter, Lithography, Back end of line

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Proceedings Article | 12 April 2013 Paper

The impact of 14-nm photomask uncertainties on computational lithography solutions

John Sturtevant, Edita Tejnil, Tim Lin, Steffen Schultze, Peter Buck, Franklin Kalk, Kent Nakagawa, Guoxiang Ning, Paul Ackmann, Fritz Gans, Christian Buergel

Proceedings Volume 8683, 868307 (2013) https://doi.org/10.1117/12.2013748

KEYWORDS: Photomasks, Semiconducting wafers, Optical proximity correction, 3D modeling, Calibration, Critical dimension metrology, Manufacturing, Process modeling, Data modeling, Computational lithography

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Proceedings Article | 8 November 2012 Paper

Choosing the data flow paradigm for EUV mask process corrections

Christian Bürgel, Keith Standiford, Gek Chua

Proceedings Volume 8522, 85220Y (2012) https://doi.org/10.1117/12.965225

KEYWORDS: Photomasks, Optical proximity correction, Data modeling, Calibration, Data conversion, Point spread functions, Manufacturing, Extreme ultraviolet, Process modeling, Semiconducting wafers

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Proceedings Article | 8 November 2012 Paper

Reticle and Wafer CD Variation for Different Dummy Pattern

GuoXiang Ning, Christian Buergel, Paul Ackmann, Marc Staples, Thomas Thamm, Chin Teong Lim, Andre Leschok, Stefan Roling, Anthony Zhou, Fang Hong Gn, Frank Richter

Proceedings Volume 8522, 85222J (2012) https://doi.org/10.1117/12.964375

KEYWORDS: Reticles, Semiconducting wafers, Critical dimension metrology, Optical proximity correction, Metals, Manufacturing, Electron beams, Etching, Binary data, Neodymium

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Dummy pattern fill is added to a layout of a reticle for the purpose of raising the pattern-density of specific regions. The pattern-density has also an influence on different process-steps which were performed when manufacturing a reticle (e.g. proximity effect of electron beam exposure process, developer, and etch-processes). Although the reticle processes are set up to compensate the influence of the pattern density, dummy pattern can have an influence onto the reticle CD. When the isolated features become “nested” by insertion of dummy pattern, the reticle CD variation is even larger because nested features exacerbate the proximity effect of an electron beam. Another reason is that the etch ratio as well as the develop dynamics during the reticle manufacturing process are slightly dependent on the local pattern-density of pattern. With different dummy pattern around the main feature, the final reticle CD will be changed. Wafer CD of main feature is also dependant on the surrounding patterns which will induce different boundary conditions for wafer exposure.

We have investigated three manufacturing sites for a 28nm first-metal layer reticle. Two of them were manufactured with a comparable process using the same advanced reticle binary blank material. For the third site a different reticle blank material with a relatively thin absorber layer thickness was used which was made with a comparable reticle process. The optical proximity correction (OPC) test patterns were designed with two different dummy patterns. The CD differences of the three reticles will be demonstrated for different dummy pattern and will be discussed individually. All three reticles have been exposed and the respective wafer critical dimension through pitch (CDTP) and linearity performance is demonstrated. Also the line-end performance for two dimensional (2D) structures is shown for the three sites of the reticle. The wafer CD difference for CDTP, linearity, and 2D structures are also discussed.

Proceedings Article | 30 June 2012 Paper

Tales of scales: how to enable backup process tool qualification for high-end photomasks

G. Cantrell, Christian Bürgel, Martin Sczyrba, Jan Heumann, Stefan Meusemann, Clemens Utzny

Proceedings Volume 8441, 844103 (2012) https://doi.org/10.1117/12.964671

KEYWORDS: Critical dimension metrology, Reticles, Photoresist processing, Photomasks, Principal component analysis, Inspection, Scanning electron microscopy, Spatial resolution, Lithography, Manufacturing

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Proceedings Article | 14 October 2011 Paper

More than monitoring: advanced lithographic process tuning

G. R. Cantrell, Jo Alvin Dumaya, Christian Bürgel, Axel Feicke, Martin Häcker, Clemens Utzny

Proceedings Volume 8166, 81660M (2011) https://doi.org/10.1117/12.896416

KEYWORDS: Critical dimension metrology, Photoresist processing, Lithography, Reticles, Principal component analysis, Photomasks, Etching, Cadmium, Statistical analysis, Chemically amplified resists

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Proceedings Article | 25 September 2010 Paper

Using principal component analysis for photomask CD signature investigations

G. R. Cantrell, Christian Bürgel, Axel Feicke, Martin Sczyrba, Clemens Utzny

Proceedings Volume 7823, 78232O (2010) https://doi.org/10.1117/12.864139

KEYWORDS: Critical dimension metrology, Reticles, Principal component analysis, Photoresist processing, Photomasks, Error analysis, Data modeling, Manufacturing, Metrology, Process engineering

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Proceedings Article | 25 September 2010 Paper

A systematic approach to the determination of SRAF capabilities in high end mask manufacturing

Christian Bürgel, Martin Sczyrba, G. Cantrell

Proceedings Volume 7823, 78230I (2010) https://doi.org/10.1117/12.864210

KEYWORDS: SRAF, Inspection, Opacity, Photomasks, Defect detection, Manufacturing, Defect inspection, Etching, Reticles, Metals

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Proceedings Article | 28 June 2005 Paper

Application of a wafer development process to mask making

Gaston Lee, Celine Berger, Christian Burgel, Axel Feicke, Rusty Cantrell, Martin Tschinkl

Proceedings Volume 5853, (2005) https://doi.org/10.1117/12.617104

KEYWORDS: Photomasks, Semiconducting wafers, Forward error correction, Reticles, Manufacturing, Chromium, Control systems, Standards development, Etching, Photoresist processing

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Proceedings Article | 28 August 2003 Paper

Comparison of new film nozzle with standard nozzle for aqueous puddle developing of photomasks

Christian Buergel, Werner Saule, M. Strobl, Peter Dress, Anatol Schwersenz, Martin Tschinkl

Proceedings Volume 5130, (2003) https://doi.org/10.1117/12.504190

KEYWORDS: Photomasks, Standards development, Inspection, Image processing, Photoresist processing, Critical dimension metrology, Chemically amplified resists, Scanning electron microscopy, 3D image processing, Silver

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Proceedings Article | 27 December 2002 Paper

Negative chemically amplified resist (nCAR) for DRAM mask fabrications

Martin Tschinkl, Christian Buergel, Uwe Griesinger, Barbara Jeansannetas, Armelle Vix

Proceedings Volume 4889, (2002) https://doi.org/10.1117/12.467429

KEYWORDS: Opacity, Line edge roughness, Coating, Critical dimension metrology, Chemically amplified resists, Photoresist processing, Mask making, Vestigial sideband modulation, Error analysis, Electron beams

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Showing 5 of 25 publications

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