Prof. Jörg Seewig Profile

Prof. Jörg Seewig

Full Professor at Technische Univ Kaiserslautern

SPIE Involvement:

Author

Publications (26)

Proceedings Article | 13 March 2024 Presentation

Direct laser writing for merging 2D and 3D metrological calibration tasks

Julian Hering-Stratemeier, Matthias Eifler, Jörg Seewig, Georg von Freymann

Proceedings Volume PC12898, PC128980H (2024) https://doi.org/10.1117/12.3002597

KEYWORDS: Calibration, Equipment, Metrology, Multiphoton lithography, Micro optics, Manufacturing, 3D metrology, Standards development, Industry

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Proceedings Article | 15 August 2023 Presentation + Paper

Compatibility analysis of profile and areal material measures

Matthias Eifler, Julian Hering-Stratemeier, Georg von Freymann, Jörg Seewig

Proceedings Volume 12618, 1261812 (2023) https://doi.org/10.1117/12.2672243

KEYWORDS: Manufacturing, Calibration, Equipment, Standards development, Scanning electron microscopy, Optical surfaces, Multiphoton lithography, Design and modelling, Confocal microscopy

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Proceedings Article | 15 August 2023 Presentation + Paper

Construction of a time-domain full-field OCT for non-contact volumetric layer thickness measurement

Georgis Bulun, Marvin Lotz, Andrej Keksel, Gerhard Stelzer, Jörg Seewig

Proceedings Volume 12618, 126180S (2023) https://doi.org/10.1117/12.2673664

KEYWORDS: Optical coherence tomography, Refractive index, Coating thickness, Film thickness, Coating, Interferometry

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Proceedings Article | 15 August 2023 Presentation + Paper

Sparse surface profile reconstruction from scattering light distributions

T. Groche, J. Seewig, V. Follmann, J. Uebel

Proceedings Volume 12618, 126180U (2023) https://doi.org/10.1117/12.2673175

KEYWORDS: Light scattering, Sensors, Associative arrays, Scattered light, Surface roughness, Optical testing, Measurement devices, Fourier transforms, Diodes, Computer simulations

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Proceedings Article | 10 August 2023 Presentation + Paper

Scientific modeling of optical 3D measuring devices based on GPU-accelerated ray tracing using the NVIDIA OptiX engine

A. Keksel, S. Schmidt, D. Beck, J. Seewig

Proceedings Volume 12619, 126190F (2023) https://doi.org/10.1117/12.2673777

KEYWORDS: Optical surfaces, Simulations, Ray tracing, Measurement devices, Optical testing, 3D modeling, Modeling, Light scattering, Geometrical optics

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Proceedings Article | 3 October 2022 Presentation + Paper

Determination of the characteristics of a self-built coherence scanning interferometer with a universal calibration artefact

Matthias Eifler, Julian Hering, Georgis Bulun, Georg von Freymann, Jörg Seewig

Proceedings Volume 12223, 122230A (2022) https://doi.org/10.1117/12.2633483

KEYWORDS: Calibration, Metrology, Standards development, Light sources, Objectives, Manufacturing, Interferometers, Image quality, Beam splitters, Cameras

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Proceedings Article | 5 March 2022 Presentation

Improving multi-photon lithography with machine learning

Julian Hering, Nicolas Lang, Matthias Eifler, Andrej Keksel, Jörg Seewig, Georg von Freymann

Proceedings Volume PC12012, PC120120M (2022) https://doi.org/10.1117/12.2607238

KEYWORDS: Lithography, Multiphoton lithography, Point spread functions, Machine learning, Artificial intelligence, Aberration correction, Testing and analysis, Measurement devices, Evolutionary algorithms, Calibration

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Proceedings Article | 20 June 2021 Presentation + Paper

Towards a continuous frequency band chirp material measure for surface topography measuring instrument calibration

Matthias Eifler, Julian Hering, Andrej Keksel, Georg von Freymann, Jörg Seewig

Proceedings Volume 11782, 117820M (2021) https://doi.org/10.1117/12.2591935

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Proceedings Article | 20 June 2021 Presentation + Paper

Metrological characteristics of material measures depending on manufacturing parameters in direct laser writing and external stress factors

Katja Gross, Matthias Eifler, Julian Hering, Georg von Freymann, Jörg Seewig

Proceedings Volume 11782, 117820N (2021) https://doi.org/10.1117/12.2591655

KEYWORDS: Manufacturing, Multiphoton lithography, Humidity, Calibration, Additive manufacturing

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Proceedings Article | 5 March 2021 Presentation

New material measure for the calibration of areal-optical measuring instruments and its demands on fabrication

Julian Hering, Matthias Eifler, Xiukun Hu, Gaoliang Dai, Jörg Seewig, Georg von Freymann

Proceedings Volume 11696, 1169612 (2021) https://doi.org/10.1117/12.2579635

KEYWORDS: Calibration, Stars, Standards development, Point spread functions, Optical calibration, Optical aberrations, Lithography, Aberration correction

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Proceedings Article | 21 August 2020 Presentation + Paper

Performance specification of areal surface texture instruments exemplified by a self-built WLI

Georgis Bulun, Matthias Eifler, Julian Hering, Georg von Freymann, Jörg Seewig

Proceedings Volume 11490, 114900H (2020) https://doi.org/10.1117/12.2567666

KEYWORDS: Calibration, Metrology, Standards development, Light sources, Microscopes, Optical sensors

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The calibration of optical surface topography measuring instruments ensures the comparability of the resulting surface topographies. Such comparability is also desirable for self-built optical microscopes in order to optimize these instruments with regard to their systematic and stochastic measurement uncertainty. However, there is not yet a fixed set of standards in the field of interference microscopy as in the field of stylus instruments that describes methods for their calibration, verification, adjustment and performance specification [1] [2]. The associated standard for optical measuring instruments is still in preparation in the corresponding ISO working group. There is the guideline according to VDI/VDE 2655 Sheet 1.1, for the calibration of interference microscopes for surface texture measurement. This guideline is essentially a transfer of methods that origin from the calibration of stylus instruments [1]. Thus, it describes a profile-like calibration and does specifically consider areal properties of interference microscopes. The field of areal calibration is still work in progress in the international standardization. The ISO 25178-600 that was recently published defines the basic metrological characteristics of areal surface topography measuring instruments [3]. In our study, we describe the optimization and performance specification of a self-built white light interference microscope based on methods that were developed for instrument calibration. For the performance specification we use the metrological characteristics of ISO 25178-600 that are imaged with the help of a previously developed Universal Calibration Artefact for areal calibration [4]. The results of the metrological characteristics are compared with a commercially available white light interferometer (WLI). In order to improve the self-built interference microscope, the measurements are repeated with different configurations and a final setup is chosen that allows a specification of the performance of the self-built interference microscope for measuring areal surface texture.

Proceedings Article | 10 March 2020 Presentation

Two-Photon laser lithography for metrology and vice versa (Conference Presentation)

Julian Hering, Matthias Eifler, Xiukun Hu, Gaoliang Dai, Jörg Seewig, Georg von Freymann

Proceedings Volume 11292, 1129217 (2020) https://doi.org/10.1117/12.2543666

KEYWORDS: Lithography, Metrology, Laser metrology, 3D metrology, Manufacturing, Optics manufacturing, Image resolution, Atomic force microscope, Laser systems engineering, 3D modeling

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Proceedings Article | 21 June 2019 Presentation + Paper

Development of a convolutional autoencoder using deep neuronal networks for defect detection and generating ideal references for cutting edges

Abdullah Karatas, Dorothea Kölsch, Samuel Schmidt, Matthias Eifler, Jörg Seewig

Proceedings Volume 11056, 1105623 (2019) https://doi.org/10.1117/12.2525882

KEYWORDS: Neural networks, Convolution, Defect detection, Machine learning, Data modeling, Gaussian filters

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Proceedings Article | 21 June 2019 Presentation + Paper

User-oriented evaluation of the metrological characteristics of areal surface topography measuring instruments

Matthias Eifler, Felix Ströer, Julian Hering, Georg von Freymann, Jörg Seewig

Proceedings Volume 11056, 110560Y (2019) https://doi.org/10.1117/12.2526005

KEYWORDS: Calibration, Standards development, Metrology, Spatial resolution, Manufacturing, Lithography, Sensor technology

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Proceedings Article | 7 September 2018 Paper

Extensive microstructural quality control inside a machine tool using multiwavelength digital holography

T. Seyler, M. Fratz, T. Beckmann, A. Bertz, D. Carl, V. Grün, R. Börret, F. Ströer, J. Seewig

Proceedings Volume 10834, 108342B (2018) https://doi.org/10.1117/12.2319750

KEYWORDS: Sensors, Deconvolution, Digital holography, Confocal microscopy, Interferometers, Holograms, Surface roughness

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Proceedings Article | 29 May 2018 Presentation

3D printing of material measures for areal surface texture (Conference Presentation)

Matthias Eifler, Julian Hering, Georg von Freymann, Jörg Seewig

Proceedings Volume 10675, 1067506 (2018) https://doi.org/10.1117/12.2307560

KEYWORDS: Manufacturing, Standards development, Multiphoton lithography, Calibration, Optics manufacturing, Lithography, Laser applications, Coating, Metrology, Etching

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Component surfaces feature more and more complex functional properties and deterministic geometric structures. The result is that an areal characterization of surfaces is more often necessary. The increasing incidence of areal surface topography measuring instruments in geometrical product specification enables the acquisition of more information about a surface topography. However, also more complex calibration procedures are required as an increasing number of metrological characteristics need to be verified. This verification is achieved with areal material measures which are described in the standard ISO 25178-70. State of the art is a manufacturing of the proposed geometries with many different principles because there is a broad range of geometries whose structure size is usually in the micrometer-range. Typically applied principles include lithography, etching and ultra-precision cutting. The application of an ultra-precise 3D-printing technology, two-photon laser lithography alias direct laser writing, exhibits enormous potential for areal material measures as arbitrary 3D-freeform surfaces can be manufactured with a high repeatability in the nanometer-range. Hence, a feasibility study of the application of direct laser writing for the manufacturing of areal material measures is conducted. In doing so, different standardized material measures are manufactured and the resulting surface topographies are compared to their target geometries in order to qualify the manufacturing process. The measurements are performed with different surface topography measuring instruments in order to examine the overall suitability of the principle for the manufacturing of areal material measures. The standardized measurands of the ISO 25178-70 serve as evaluation criteria just as recently defined new parameters for the verification of surface topography measuring instruments. As a new resolution criterion, for example the small scale fidelity limit is evaluated. The enhancement of the resolution of the manufacturing process with stimulated emission depletion is examined and the resolution limits of the manufacturing and the measuring processes are compared. The samples that are manufactured with direct laser writing are further examined regarding their practical abilities. An important property of material measures is their stable provision of constant evaluation parameters. In order to examine this relevant characteristic of the samples, different studies which describe the aging behavior of varying coating materials are conducted. Based on the results, a suitable coating material with suitable optical characteristics can be chosen and the time-dependent behavior of the geometries can be evaluated. Because optical surface topography measuring instruments which are calibrated with the proposed material measures may feature varying magnifications and fields of view, in another study scaling effects are examined and material measures with different structure sizes are manufactured in order to evaluate the scalability of the different types of material measures. It can be concluded that almost any standardized areal material measure can be manufactured reliably with direct laser writing. Due to the scalability of the structures, a calibration of optical surface topography measuring instruments with varying fields of view can be ensured.

Proceedings Article | 22 February 2018 Presentation + Paper

Two-photon laser lithography in optical metrology

Julian Hering, Matthias Eifler, Linda Hofherr, Christiane Ziegler, Jörg Seewig, Georg von Freymann

Proceedings Volume 10544, 1054412 (2018) https://doi.org/10.1117/12.2289900

KEYWORDS: Calibration, Lithography, Point spread functions, Polymerization, Additive manufacturing, Standards development

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Proceedings Article | 14 July 2017 Paper

Application of GPU-based, highly parallelized algorithms for the estimation of electromagnetic multi-layer interactions

François Torner, Abdullah Karatas, Matthias Eifler, Indek Raid, Jörg Seewig

Proceedings Volume 10329, 1032922 (2017) https://doi.org/10.1117/12.2270257

KEYWORDS: Electromagnetism, Oxidation, Optical coatings, Statistical modeling, Ellipsometry, Graphics processing units, Optical properties, Aluminum, Oxides, Multilayers, Refractive index, Polarization, Phase shift keying, Silicon

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In nowadays industry, complex surfaces with material contrasts or surface coatings are present and represent a challenge for optical topography measuring instruments. The reason is that varying optical properties lead to phase jumps and to topography deviations when the surface height is evaluated. Thus, Ellipso-Height-Topometry as a measurement technique which can measure both topography and material properties of technical surfaces was proposed in order to achieve a correction of the occurring topographic artefacts. The height correction value can be obtained for the compensation of material-induced height deviations and the thickness of surface layers can be evaluated. Currently, it is possible to calculate the surface characteristics from ellipsometric parameters for at most two layers. However, the described height corrections are only possible when well-defined and realistic models of surface layers can be utilized, e.g. a given set of homogeneous oxide layers. Oxidation effects however describe statistical processes which can be predicted with underlying material distribution models. This leads to an uncertainty in ellipsometry, which is considered with a new approach that will be discussed in this publication. Therefore, an extended multi-layer approach which is capable of handling additional layers based on a parallelized algorithm using graphic processing units and the commonly known CUDA technology is proposed. This algorithm can also be used to consider material proportions which result from oxidation effects in z direction. The new approach for the Ellipso-Height-topometry measurement technique is compared with the current procedures which often neglect the existence of an oxide layer for the basic material. To experimentally verify the approach and according algorithm, it is applied for the evaluation of actual surfaces with multiple plane layers and different materials. Test samples with different materials are used in order to evaluate the complex refractive index, the distribution of identified materials and the layer thicknesses with actual Ellipso-Height- Topometry measurements. The results of the measurements are compared to the predicted theoretical results.

Proceedings Article | 13 June 2017 Paper

Calibration of areal surface topography measuring instruments

J. Seewig, M. Eifler

Proceedings Volume 10449, 1044911 (2017) https://doi.org/10.1117/12.2270533

KEYWORDS: Calibration, Manufacturing, Additive manufacturing, Metrology, Measurement devices, Standards development, Geometrical optics, Optics manufacturing, Optical components, Etching

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Proceedings Article | 22 June 2015 Paper

Calibration of z-axis linearity for arbitrary optical topography measuring instruments

Matthias Eifler, Jörg Seewig, Julian Hering, Georg von Freymann

Proceedings Volume 9525, 952510 (2015) https://doi.org/10.1117/12.2190737

KEYWORDS: Calibration, Manufacturing, Measurement devices, Optical testing, Signal processing, Chromium, Curium, Optics manufacturing, Confocal microscopy, Interferometers

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Proceedings Article | 13 May 2013 Paper

Robust evaluation of intensity curves measured by confocal microscopies

Jörg Seewig, Indek Raid, Christian Wiehr, Bini George

Proceedings Volume 8788, 87880T (2013) https://doi.org/10.1117/12.2020551

KEYWORDS: Confocal microscopy, Microscopes, Sensors, Objectives, Fourier transforms, Optical testing, Standards development, Image sensors, Diffraction, Light

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Proceedings Article | 27 May 2011 Paper

Uncertainty of height information in coherence scanning interferometry

J. Seewig, T. Böttner, D. Broschart

Proceedings Volume 8082, 80820V (2011) https://doi.org/10.1117/12.889796

KEYWORDS: Interferometry, Sensors, Light sources, Mirrors, Fourier transforms, Chromium, Optical interferometry, Mathematical modeling, Optical testing, Interferometers

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Proceedings Article | 17 June 2009 Paper

Assistance system for optical sensors

R. Schmitt, F. Koerfer, J. Seewig, W. Osten, A. Weckenmann

Proceedings Volume 7390, 73900C (2009) https://doi.org/10.1117/12.827339

KEYWORDS: Calibration, Confocal microscopy, Microscopes, Inspection, Standards development, Sensors, Interferometry, Environmental sensing, Manufacturing, Interferometers

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Proceedings Article | 17 June 2009 Paper

Extraction of shape and roughness using scattering light

J. Seewig, G. Beichert, R. Brodmann, H. Bodschwinna, M. Wendel

Proceedings Volume 7389, 73890N (2009) https://doi.org/10.1117/12.827478

KEYWORDS: Sensors, Optical sensors, Light scattering, Optical spheres, Surface roughness, Manufacturing, Standards development, Optical testing, 3D metrology, Scattering

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Proceedings Article | 16 July 2007 Paper

Explosive embossing of holographic structures

Till Scholz, Jörg Seewig, Eduard Reithmeier, Günter Helferich

Proceedings Volume 6618, 661811 (2007) https://doi.org/10.1117/12.726067

KEYWORDS: Holography, Explosives, Holograms, Digital holography, Printed circuit board testing, Image processing, Nanostructures, Computing systems, 3D image reconstruction, Wavefronts

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Proceedings Article | 10 September 2004 Paper

Black-box calibration methods investigated with a virtual fringe projection system

Thomas Bottner, Jorg Seewig

Proceedings Volume 5457, (2004) https://doi.org/10.1117/12.554748

KEYWORDS: Calibration, Projection systems, Cameras, Optical spheres, Numerical simulations, 3D metrology, Virtual reality, Mathematical modeling, 3D image processing, 3D modeling

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