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Haertelt, S. Hugger, L. Butschek, C. Schilling, A. Merten, M. Schwarzenberg, A. Dreyhaupt, J. Grahmann, M. Rattunde, R. Ostendorf, \"Advances of MOEMS-based external cavity QCLs,\" Proc. SPIE 10926, Quantum Sensing and Nano Electronics and Photonics XVI, 1092613 (11 February 2019)\n\ncopyright 2019 Society of PhotoOptical Instrumentation Engineers. One print or electronic copy may be made for personal use only. Systematic reproduction and distribution, dupplication of any material in this paper for fee or commercial puposes, or modification of the content of the paper are prohibited.", "type": { "id": "notes", "title": { "de": "Anmerkungen", "en": "Notes" } } } ], "creators": [ { "affiliations": [ { "name": "Fraunhofer Institute for Applied Solid State Physics" } ], "person_or_org": { "family_name": "Haertelt", "given_name": "M", "name": "Haertelt, M", "type": "personal" } }, { "affiliations": [ { "name": "Fraunhofer Institute for Applied Solid State Physics" } ], "person_or_org": { "family_name": "Hugger", "given_name": "S", "name": "Hugger, S", "type": "personal" } }, { "affiliations": [ { "name": "Fraunhofer Institute for Applied Solid State Physics" } ], "person_or_org": { "family_name": "Butschek", "given_name": "L", "name": "Butschek, L", "type": "personal" } }, { "affiliations": [ { "name": "Fraunhofer Institute for Applied Solid State Physics" } ], "person_or_org": { "family_name": "Schilling", "given_name": "C", "name": "Schilling, C", "type": "personal" } }, { "affiliations": [ { "name": "bFraunhofer Institute for Photonic Microsystems" } ], "person_or_org": { "family_name": "Merten", "given_name": "A", "name": "Merten, A", "type": "personal" } }, { "affiliations": [ { "name": "bFraunhofer Institute for Photonic Microsystems" } ], "person_or_org": { "family_name": "Schwarzenberg", "given_name": "M", "name": "Schwarzenberg, M", "type": "personal" } }, { "affiliations": [ { "name": "bFraunhofer Institute for Photonic Microsystems" } ], "person_or_org": { "family_name": "Dreyhaupt", "given_name": "A", "name": "Dreyhaupt, A", "type": "personal" } }, { "affiliations": [ { "name": "bFraunhofer Institute for Photonic Microsystems" } ], "person_or_org": { "family_name": "Grahmann", "given_name": "J", "name": "Grahmann, J", "type": "personal" } }, { "affiliations": [ { "name": "Fraunhofer Institute for Applied Solid State Physics" } ], "person_or_org": { "family_name": "Rattunde", "given_name": "M", "name": "Rattunde, M", "type": "personal" } }, { "affiliations": [ { "name": "Fraunhofer Institute for Applied Solid State Physics" } ], "person_or_org": { "family_name": "Ostendorf", "given_name": "R", "name": "Ostendorf, R", "type": "personal" } } ], "description": "
The combination of broadly tunable quantum cascade laser chips in an external cavity (EC-QCL) with a micro- electro-mechanical system (MEMS) scanner with integrated diffraction grating as wavelength-selective element allows for the development of extremely compact and robust spectroscopy systems. Resonant MOEMS grating scanners enable spectral tuning rates of hundreds of wavenumbers per millisecond and consequently broad-band spectroscopy with millisecond temporal resolution. Also non-resonant (quasistatic) MOEMS grating scanners are possible, providing scan rates of tens of Hz as well as static setting of arbitrary wavelengths, as common for mechanically driven EC lasers, while keeping the small MOEMS footprint, ruggedness, and low power consumption. Here, we give a progress report on the latest developments on MOEMS-based EC-QCLs made by Fraunhofer IAF and IPMS. We will highlight two of our latest developments: A non-resonant MOEMS EC-QCL version that allows arbitrary scan frequencies up to few ten Hertz, as well as static operation. Furthermore, we present the application of a resonantly driven cw-MOEMS-EC-QCL with cavity-length control to enable fast high-resolution spectroscopy over a spectral range of >100 cm-1, offering new possibilities for spectroscopy on complex gas mixtures.
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\r\n", "page": "AQUARIUS - Broadband Tunable QCL based Sensor for Online and Inline Detection of Contaminants in Water
\r\n\r\nAQUARIUS addresses the development of a new generation of photonic sensing solution, in response to the need for pervasive sensing for a safer environment. In particular components, modules, sub-systems and systems shall be developed for enhanced sensitivity and specificity in water monitoring following the requirements of regulatory bodies, as well as the needs of selected end-users such as waterworks and the oil producing industry. Specifically addressed within the AQUARIUS project is the detection of hydrocarbon contaminations in water (Oil-in-Water contaminations). While most current laboratory with analytical techniques can in principle handle these tasks, they are often labour and cost intensive as well as time consuming. In most cases they require samples to be taken at e.g. the water works facility and then transferred to the analytical laboratory. Therefore it would be very helpful if on- or even inline analytical sensors with high sensitivity were available, allowing for a reliable and continuous real-time monitoring on site.
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", "description": "Open repository for EU-funded research outputs from Horizon Europe, Euratom and earlier Framework Programmes.", "organizations": [ { "id": "00k4n6c32" } ], "page": "The EU Open Research Repository is a Zenodo-community dedicated to fostering open science and enhancing the visibility and accessibility of research outputs funded by the European Union. The community is managed by CERN on behalf of the European Commission.
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