Ophthalmic OCT on a Chip

Livrables

During the project training actions will be taken to ensure knowledge exchange and to deepen the awareness with respect to key topics in this highly interdisciplinary consortium. The courses will be primarily directed to students and staff scientist as well as engineers of the partner organisations but also open to external guests. Three courses with internal and external experts are planned with the following topics: 1) Medical background on retinal diseases 2) Optical imaging in medicine 3) Integrated optics and optoelectronics

Training event: Medical background on retinal diseases

During the project training actions will be taken to ensure knowledge exchange and to deepen the awareness with respect to key topics in this highly interdisciplinary consortium. The courses will be primarily directed to students and staff scientist as well as engineers of the partner organisations but also open to external guests. Three courses with internal and external experts are planned with the following topics: 1) Medical background on retinal diseases 2) Optical imaging in medicine 3) Integrated optics and optoelectronics

Final press release

To ensure a concerted dissemination and communication the EDT will prepare a dissemination and communication plan during Y1, which will be thereafter regularly assessed and updated. The EDT will identify topics suited for dissemination and coordinate the according activities of the partners. This includes publications in open access scientific journals, presentations at international conferences and workshops as well as through lectures presented to academia, industry and EU policy makers. Along with its activities in task 9.1, the EDT will implement the open data actions according to the decision procedures defined in the Data Management Plan (DMP). The dissemination of the results to research managers, company representatives and scientists not participating in the project, will be assured by the means of publications as well as by the participation in workshops and public forums such as events organised by the EC. Interaction with other EU and national projects as well as stakeholder organisations in the field of point-of-care diagnostics, ophthalmic diagnosis, and health care will be initiated. Various other routes of communication in non-scientific media will be actively pursued to ensure the visibility of OCTCHIP in the public such as publications in popular science magazines, press releases, popular science presentations on television and social media. At least two press releases will be launched by CZ at the beginning and at the end of the project on the vision of the OCTCHIP project and on its achievements, respectively. AIT will be responsible for setting up and maintaining the project website which will be operational by the end of month 2 after project start. The website will comprise an internal area, a limited access area dedicated to public relations (PR) actions, and a public area. On the internal area the latest results, activities, as well as reporting and other relevant documents will be shared to ensure a constant flow of information within the consortium. The public area will provide information about the project objectives, recent results, publications and related events. The OCTCHIP website will be linked to other relevant websites including EU‐funded projects.

Training event: Integrated optics and optoelectronics

During the project training actions will be taken to ensure knowledge exchange and to deepen the awareness with respect to key topics in this highly interdisciplinary consortium. The courses will be primarily directed to students and staff scientist as well as engineers of the partner organisations but also open to external guests. Three courses with internal and external experts are planned with the following topics: 1) Medical background on retinal diseases 2) Optical imaging in medicine 3) Integrated optics and optoelectronics

Press release

To ensure a concerted dissemination and communication the EDT will prepare a dissemination and communication plan during Y1, which will be thereafter regularly assessed and updated. The EDT will identify topics suited for dissemination and coordinate the according activities of the partners. This includes publications in open access scientific journals, presentations at international conferences and workshops as well as through lectures presented to academia, industry and EU policy makers. Along with its activities in task 9.1, the EDT will implement the open data actions according to the decision procedures defined in the Data Management Plan (DMP). The dissemination of the results to research managers, company representatives and scientists not participating in the project, will be assured by the means of publications as well as by the participation in workshops and public forums such as events organised by the EC. Interaction with other EU and national projects as well as stakeholder organisations in the field of point-of-care diagnostics, ophthalmic diagnosis, and health care will be initiated. Various other routes of communication in non-scientific media will be actively pursued to ensure the visibility of OCTCHIP in the public such as publications in popular science magazines, press releases, popular science presentations on television and social media. At least two press releases will be launched by CZ at the beginning and at the end of the project on the vision of the OCTCHIP project and on its achievements, respectively. AIT will be responsible for setting up and maintaining the project website which will be operational by the end of month 2 after project start. The website will comprise an internal area, a limited access area dedicated to public relations (PR) actions, and a public area. On the internal area the latest results, activities, as well as reporting and other relevant documents will be shared to ensure a constant flow of information within the consortium. The public area will provide information about the project objectives, recent results, publications and related events. The OCTCHIP website will be linked to other relevant websites including EU‐funded projects.

Set-up content management system

In this task a Data Management Plan (DMP) will be elaborated within the first six months of the project. The DMP will address issues related to: • Project wide standardisation of data handling, documentation, storage and archiving (e.g. data formats, structure of the Master Specification Document (MSD), format and contents of annotation, naming of files, folder structures, etc.). • Decision making procedures (to be implemented in WP8) on which data will be disclosed at what time and on which data has to be transferred to the MSD until the end of the project. • Rules for curating data, which will be implemented by the individual partners, as well as for preservation of data (including MSD) for the time after the project.

Publications

PECVD silicon nitride optical waveguide devices for sensing applications in the visible and <1µm near infrared wavelength region

Auteurs: Rainer Hainberger, Paul Muellner, Stefan Nevlacsil, Florian Vogelbacher, Moritz Eggeling, Alejandro Maese-Novo, Martin Sagmeister, Guenther Koppitsch, Jochen Kraft, Xue Zhou, Jinhua Huang, Mingzhu Li, Ke-Jian Jiang, Yanlin Song
Publié dans: Integrated Optics: Design, Devices, Systems, and Applications V, 2019, Page(s) 8, ISBN 9781510627291
Éditeur: SPIE
DOI: 10.1117/12.2524277

Monolithically Integrated, CMOS-Compatible SiN Photonics for Sensing Applications

Auteurs: Martin Sagmeister, Günther Koppitsch, Paul Muellner, Stefan Nevlacsil, Alejandro MaeseNovo, Rainer Hainberger, Dana Seyringer, Jochen Kraft
Publié dans: Proceedings, Numéro 2/13, 2018, Page(s) 1023, ISSN 2504-3900
Éditeur: MDPI
DOI: 10.3390/proceedings2131023

Spectral domain and swept source optical coherence tomography on a photonic integrated circuit at 840nm for ophthalmic application

Auteurs: Elisabet A. Rank, Stefan Nevlacsil, Paul Muellner, Rainer Hainberger, Alejandro Maese-Novo, Marcus Duelk, Stefan Gloor, Matthias Voelker, Nanko Verwaal, Gerald Meinhardt, Martin Sagmeister, Jochen Kraft, Padraic Morrissey, Moises Jezzini, Zhiheng Quan, Peter O'Brien, Stefan Richter, Michael Kempe, Dana Seyringer, Wolfgang Drexler
Publié dans: Optical Coherence Imaging Techniques and Imaging in Scattering Media III, 2019, Page(s) 29, ISBN 9781510628502
Éditeur: SPIE
DOI: 10.1117/12.2526903

A 300MS/s 10bit SAR with loop-embedded input buffer for a photonic system

Auteurs: Leonhard Klein, Antonios Nikas, Bijoy Kundu, Matthias Voelker
Publié dans: 2019 17th IEEE International New Circuits and Systems Conference (NEWCAS), 2019, Page(s) 1-4, ISBN 978-1-7281-1031-8
Éditeur: IEEE
DOI: 10.1109/newcas44328.2019.8961259

Silicon-nitride waveguide-based integrated photonic circuits for medical diagnostic and other sensing applications

Auteurs: Rainer Hainberger, Paul Muellner, Stefan Nevlacsil, Alejandro Maese-Novo, Florian Vogelbacher, Moritz Eggeling, Jörg Schotter, Martin Sagmeister, Günther Koppitsch, Jochen Kraft
Publié dans: Smart Photonic and Optoelectronic Integrated Circuits XXI, Numéro 10922, 2019, Page(s) 3, ISBN 9781510624870
Éditeur: SPIE
DOI: 10.1117/12.2509982

PECVD SiN photonic integrated circuit for swept source oct at 840 nm

Auteurs: S. Nevlacsil, P. Muellner, A. Maese-Novo, M. Sagmeister, J. Kraft, E. Rank, W. Drexler, R. Hainberger
Publié dans: EUROPEAN CONFERENCE ON INTEGRATED OPTICS 2020, 2020
Éditeur: EUROPEAN CONFERENCE ON INTEGRATED OPTICS

Simulation and design of silicon nitride waveguide structures for (bio)sensing applications

Auteurs: R. Hainberger, M. Eggeling, P. Müllner, A. Maese-Novo, S. Nevlacsil, F. Vogelbacher
Publié dans: Photonics North 2017, 2017, Page(s) 255-rRjo-144
Éditeur: Photonics North

Development of a monolithically integrated, CMOS-compatible SiN photonics process flow for sensor and medical applications

Auteurs: M. Sagmeister, S. Jessenig, P. Muellner, S. Nevlacsil, A. Maese-Novo, M. Eggeling, R. Hainberger, D. Seyringer, W. Drexler, E. Rank, J. Kraft
Publié dans: INTERPHOTONICS 2019, 2nd International Congress on Photonics Research, 2019, Page(s) 61
Éditeur: INTERPHOTONICS 2019

PECVD Silicon Nitride Photonic Integrated Circuits and Key Building Blocks for Sensing Applications

Auteurs: Rainer Hainberger, Paul Muellner, Stefan Nevlacsil, Moritz Eggeling, Alejandro Maese-Novo, Florian Vogelbacher, Martin Sagmeister, Jochen Kraft, Dana Seyringe, Sabine Trupp, Michael Henfling, Svenja Plesshoff, Jan Vaupot, Marcel Sladecek, Elisabet Rank, Wolfgang Drexler
Publié dans: Optical Sensors and Sensing Congress, 2020, Page(s) STh4G.1, ISBN 978-1-943580-78-1
Éditeur: OSA
DOI: 10.1364/sensors.2020.sth4g.1

CMOS-compatible silicon nitride waveguide photonic building blocks and their application for optical coherence tomography and other sensing applications

Auteurs: Rainer Hainberger, Paul Muellner, Moritz Eggeling, Alejandro Maese-Novo, Stefan Nevlacsil, Jörg Schotter, Florian Vogelbacher, Jochen Kraft, Martin Sagmeister, Xue Zhou, Jinhua Huang, Mingzhu Li, Ke-Jian Jiang, Yanlin Song, Dana Seyringer, Elisabet Rank, Wolfgang Drexler
Publié dans: Integrated Optics: Devices, Materials, and Technologies XXIV, Numéro 11283, 2020, Page(s) 23, ISBN 9781510633308
Éditeur: SPIE
DOI: 10.1117/12.2543585

Silicon nitride waveguide integration platform for medical diagnostic applications

Auteurs: Rainer Hainberger, Paul Muellner, Eva Melnik, Giorgio Mutinati, Moritz Eggeling, Alejandro Maese-Novo, Florian Vogelbacher, Jochen Kraft, Guenther Koppitsch, Gerald Meinhardt, Franz Schrank
Publié dans: 2016 Progress in Electromagnetic Research Symposium (PIERS), 2016, Page(s) 781-781, ISBN 978-1-5090-6093-1
Éditeur: IEEE
DOI: 10.1109/piers.2016.7734463

Broadband low loss and ultra-low crosstalk waveguide crossings based on a multimode interferometer for 840 nm operation

Auteurs: Stefan Nevlacsil, Paul Muellner, Martin Sagmeister, Jochen Kraft, Rainer Hainberger
Publié dans: OSA Continuum, Numéro 3/2, 2020, Page(s) 334, ISSN 2578-7519
Éditeur: OSA The Optical Society
DOI: 10.1364/osac.381003

Broadband SiN asymmetric directional coupler for 840 nm operation

Auteurs: Stefan Nevlacsil, Moritz Eggeling, Paul Muellner, Guenther Koppitsch, Martin Sagmeister, Jochen Kraft, Rainer Hainberger
Publié dans: OSA Continuum, Numéro 1/4, 2018, Page(s) 1324, ISSN 2578-7519
Éditeur: OSA The Optical Society
DOI: 10.1364/osac.1.001324

Multi-channel swept source optical coherence tomography concept based on photonic integrated circuits

Auteurs: Stefan Nevlacsil, Paul Muellner, Alejandro Maese-Novo, Moritz Eggeling, Florian Vogelbacher, Martin Sagmeister, Jochen Kraft, Elisabet Rank, Wolfgang Drexler, Rainer Hainberger
Publié dans: Optics Express, Numéro 28/22, 2020, Page(s) 32468, ISSN 1094-4087
Éditeur: Optical Society of America
DOI: 10.1364/oe.404588

Toward optical coherence tomography on a chip: in vivo three-dimensional human retinal imaging using photonic integrated circuit-based arrayed waveguide gratings

Auteurs: Elisabet A. Rank, Ryan Sentosa, Danielle J. Harper, Matthias Salas, Anna Gaugutz, Dana Seyringer, Stefan Nevlacsil, Alejandro Maese-Novo, Moritz Eggeling, Paul Muellner, Rainer Hainberger, Martin Sagmeister, Jochen Kraft, Rainer A. Leitgeb, Wolfgang Drexler
Publié dans: Light: Science & Applications, Numéro 10/1, 2021, Page(s) 6, ISSN 2047-7538
Éditeur: Springer Nature
DOI: 10.1038/s41377-020-00450-0

Droits de propriété intellectuelle

OPTICAL COHERENCE TOMOGRAPHY SYSTEM

Numéro de demande/publication: 19 189873
Date: 2019-08-02
Demandeur(s): AIT AUSTRIAN INSTITUTE OF TECHNOLOGY GMBH

Livrables

Publications

Droits de propriété intellectuelle

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