Tätigkeiten an der FHNW
Dozent für Mess- und Sensortechnik am Institut für Sensorik und Elektronik FHNW
Lehrtätigkeiten
- Bachelor-Studiengänge: Maschinenbau, Systemtechnik und Elektro- und Informationstechnik
- Weiterbildung: CAS Elektrische Energie am Bau
Forschungsschwerpunkte
Industrielle Mess- und Sensortechnik
- Optische Sensortechnologien
- Akustische Sensortechnologien
- Sensorsysteme und -Netzwerke
- Reliability Engineering
- Energy Harvesting
Profil
Biografie
Ausbildung
2004
PhD in Photonik, Technische Universität Wien, Österreich
Titel: Interaction of Intense Femtosecond Laser Pulses with Absorbing Materials
1999
MSc in Elektrotechnik, Technische und Wirtschaftswissenschaftliche Universität Budapest, Ungarn
Schwerpunkte: Mikrowellennachrichtentechnik und Akustik
Berufliche Tätigkeiten
Seit 2019
Professor für Sensorik
Institut für Sensorik und Elektronik, Hochschule für Technik und Umwelt FHNW,
Brugg-Windisch
Forschungsschwerpunkte: Industrielle Mess- und Sensortechnik, Sensorsysteme und -Netzwerke
2009 – 2019
Principal Scientist
ABB Forschungszentrum, Gruppe "Sensor Technologies"
Baden-Dättwil, Schweiz
Forschungsschwerpunkte: Optische und akustische Sensortechnologien für Anwendungen in der Prozessanalytik und Hochspannungsindustrie, Reliability Engineering
2007 – 2009
Advanced Research Fellow
Forschungsinstitut für Festkörperphysik und Optik, Akademie für Wissenschaften
Budapest, Ungarn
Forschungsschwerpunkt: Elektrische Felderhöhung und Gleichrichtung von optisch angeregten Oberflächenplasmonen an Nanostrukturen
2004 – 2007
Marie Curie European research fellow
The University of Birmingham, England
Forschungsschwerpunkt: Zeitaufgelöste Untersuchung der femtosekunden-Laserablation der Graphitoberfläche mittels Flugzeitspektroskopie
Mitgliedschaft
Institute of Electrical and Electronics Engineers IEEE
Publikationen
Veröffentlichungen in Fachzeitschriften und -büchern
1 | M. Lenner, F. Kassubek, Ch. Bernhard, L. Yang, D. Pape, Single-element ultrasonic transducer for non-invasive measurements, IEEE Sensors J., DOI: 10.1109/ JSEN.2019.2961614 (2020) |
2 | M. Lenner, A. Frank, L. Yang, T. M. Roininen, K. Bohnert, Long-term reliability of fiber-optic current sensors, IEEE Sensors J., 20 823 (2020). |
3 | M. Lenner, L. Yang, A. Frank, K. Bohnert, Influence of optical fiber coatings on the long-term accuracy of interferometric fiber-optic current sensors, Proc. Eng. 168 1735 (2016). |
4 | G. M. Müller, W. Quan, M. Lenner, L. Yang, A. Frank, K. Bohnert, Fiber-optic current sensor with self-compensation of source wavelength changes, Opt. Letters 41 2867 (2016). |
5 | L. L. Simon (ed.) et al., Assessment of recent process analytical technology (PAT) trends: A multiauthor review, Org. Proc. Res. Dev. 19 3 (2015). |
6 | Y. Maret, D. Angelosante, O. Steiger, D. Pape, M. Lenner, Vibration sensitivity reduction of photoacoustic gas analyzers, IEEE Sensors J. 14 6802336 (2014). |
7 | L. Yang, A. Frank, R. Wüest, B. Gülenaltin, M. Lenner, G. M. Müller, K. Bohnert, A study on different types of fiber coils for fiber optic current sensors, Key Eng. Mat. 605 283 (2014). |
8 | M. Lenner, P. Rácz, P. Dombi, G. Farkas, N. Kroó, Field enhancement and rectification of surface plasmons detected by scanning tunneling microscopy, Phys. Rev. B 83 205428 (2011). |
9 | P. Rácz, S. E. Irvine, M. Lenner, A. Mitrofanov, A. Baltuška, A. Y. Elezzabi, P. Dombi, Strong-field plasmonic electron acceleration with few-cycle, phase-stabilized laser pulses, Appl. Phys. Lett. 98 111116 (2011). |
10 | P. Dombi, S. E. Irvine, P. Rácz, M. Lenner, N. Kroó, G. Farkas, A. Mitrofanov, A. Baltuška, T. Fuji, F. Krausz, A. Y. Elezzabi, Observation of few-cycle, strong-field phenomena in surface plasmon fields, Opt. Express 18 24206 (2010). |
11 | M. Lenner, A. Kaplan, Ch. Huchon, R. E. Palmer, Ultrafast laser ablation of graphite, Phys. Rev. B 79 184105 (2009). |
12 | P. Dombi, P. Rácz, M. Lenner, V. Pervak, F. Krausz, Dispersion management in femtosecond laser oscillators with highly dispersive mirrors, Opt. Express, 17 20598 (2009). |
13 | A. Kaplan, M. Lenner, Ch. Huchon, R. E. Palmer, Nonlinearity and time-resolved studies of ion emission in ultrafast laser ablation of graphite, Appl. Phys. A 92 999 (2008). |
14 | A. Fuerbach, M. Lenner and M. J. Withford, Photonic band gap fibre compressed Chirped-pulse oscillator, New Journal of Physics, 9 (8), 248 (2007). |
15 | M. Lenner, A. Kaplan, R. E. Palmer, Nanoscopic Coulomb explosion in ultrafast graphite ablation, Appl. Phys. Lett. 90 153119 (2007). |
16 | A. Kaplan, M. Lenner, R. E. Palmer, Emission of ions and charged clusters due to impulsive Coulomb explosion in ultrafast laser ablation of graphite, Phys. Rev. B 76 073401 (2007). |
17 | M. Lenner, Ch. Spielmann, Femtosecond time-resolved saturation dynamics of BDN-doped polycarbonate, Opt. Express, 14 (5), 1850-1855 (2006). |
18 | M. Lenner, Ch. Spielmann, Protective materials for sub-picosecond Ti:Sapphire lasers, Appl. Opt., 44 (17) 3532-3539 (2005). |
19 | M. Lenner, Ch. Spielmann, Reliability of Polycarbonate Filters in the Femtosecond Regime, Appl. Phys. B, 78 (6) 689-692 (2004). |
20 | M. Lenner, A. Fiedler, Ch. Spielmann, Reliability of Laser Safety Eye Wear in the Femtosecond Regime, Opt. Express, 12 (7), 1329-1334 (2004). |
21 | A. Hertwig, S. Martin, J. Krüger, Ch. Spielmann, M. Lenner, W. Kautek, Safety Aspects in Femtosecond Laser Technology, Femtosecond Technology for Technical and Medical Applications, Dausinger, Lichtner, Lubatschowski (ed.), Springer Verlag, ISBN: 3-540-20114-9 (2004). |
22 | J. Seres, A. Müller, E. Seres, K. O'Keeffe, M. Lenner, R. F. Herzog, D. Kaplan, Ch. Spielmann, F. Krausz, Sub-10-femtosecond, terawatt-scale Ti:sapphire laser system, Opt. Lett. 28 (19), 1832-1834 (2003). |
23 | J. Krüger, M. Lenzner, S. Martin, M. Lenner, C. Spielmann, A. Fiedler, W. Kautek, Single- and multi-pulse femtosecond laser ablation of optical filter materials, Appl. Surf. Sci. 208-209, 233-237 (2003). |
Konferenzbeiträge
1 | A. Kramer, M. Lenner, D. Maas, T. Smeeton, K. Welna, E. Boardman, V. Berryman-Bousquet, Industrial gas analytics using a compact ultraviolet laser, IEEE Sensors Conference, 27 – 30 October 2019, Montreal, Canada. Paper ID 1085. |
2 | M. Lenner, C.P. Hsu, L. Yang, A. Frank, K. Bohnert, Performance and long-term reliability of polarization-maintaining fiber connectors for fiber-optic current sensors, IEEE Sensors Conference, 28 – 31 October 2018, New Delhi, India. Paper ID 1091. |
3 | K. Bohnert, A. Frank, G. M. Müller, L. Yang, M. Lenner, P. Gabus, X. Gu, S. V. Marchese, Fiber optic current and voltage sensors for electric power transmission systems, SPIE Fiber Optic Sensors and Applications XV, 17 – 18 April 2018, Orlando, USA. Code 138056. |
4 | Eingeladener Beitrag: M. Lenner, L. Yang, A. Frank, K. Bohnert, Long-term reliability of fiber-optic sensor components in harsh industrial environments, OSA Advanced Photonics, Sensors 2017, 24 –27 July 2017, New Orleans, LA, USA. DOI: 10.1364/SENSORS.2017.SeW1E.3 |
5 | Eingeladener Beitrag: M. Lenner, L. Yang, A. Frank, K. Bohnert, Long-term reliability of fiber-optic current sensors in damp heat, Sensor 2017, 30 May–1 June 2017, Nürnberg, Germany. DOI 10.5162/sensor2017/B3.2. |
6 | K. Bohnert, A. Frank, L. Yang, G.M. Mueller, M. Lenner, T. Roininen, B. Guelenaltin, P. Gabus, S. V. Marchese, A. Vujanic, Fiber-optic current sensor in 420 kV circuit breaker, CLEO 2016, 5–10 June 2016, San Jose, CA, USA. Article number 7787415. |
7 | D. Pape, M. Lenner, Effect of Layer Dimension on the Propagation of Lamb Waves in the Presence of Liquid Layers, IEEE International Ultrasonics Symposium, 18–21 September 2016, Tours, France. Paper ID: 5I-4. |
8 | M. Lenner, L. Yang, A. Frank, K. Bohnert, Influence of optical fiber coatings on the long-term accuracy of interferometric fiber-optic current sensors, 30th Eurosensors Conference, 4–7 September 2016, Budapest, Hungary. Paper ID WL.ACC-3-8038. |
9 | G. M. Müller, W. Quan, M. Lenner, L. Yang, A. Frank, and K. Bohnert, Athermal Compensation of Source Wavelength Drifts for Fiber-Optic Current Sensors, OSA Frontiers in Optics Conference, 18–22 October 2015, San Jose, CA, USA, paper ID FTh4E.2. |
10 | D. Pape, M. Lenner, T. Kaufmann, Investigation of Lamb waves in solid-liquid layers, IEEE International Ultrasonics Symposium (IUS), 21–24 October 2015, Taiwan, Taipei. DOI 10.1109/ULTSYM.2015.0020. |
11 | M. Lenner, W. Quan, G. Müller, L. Yang, A. Frank, K. Bohnert, Interferometric fiber-optic current sensor with inherent source wavelength shift compensation, IEEE Sensors Conference, 1–4 November 2015, Busan, South Korea. Paper ID 1050. |
12 | M. Lenner, L. Yang, A. Frank, K. Bohnert, Long-term reliability of semiconductor light sources for fiber-optic current sensors, OSA Optical Sensors Conference, 27–31 July 2014, Barcelona, Spain. ISBN: 978-155752820-9. |
13 | M. Lenner, R. Wüest, A. Frank, K. Bohnert, Thermal tuning of fiber quarter-wave retarders for temperature compensation of fiber-optic current sensors, OSA Optical Sensors Conference, 14–17 July 2013, Rio Grande, Puerto Rico. ISBN: 978-1-55752-981-7. |
14 | M. Lenner, R. Wüest, A. Frank, K. Bohnert, Effects of thermal fiber annealing on the temperature compensation of interferometric fiber-optic current sensors, IEEE Sensors Conference, 28–31 October 2012, Taipei, Taiwan. Article number 6411054. |
15 | G.M. Muller, A. Frank, M. Lenner, K. Bohnert, P. Gabus, B. Guelenaltin, Temperature compensation of fiber-optic current sensors in different regimes of operation, IEEE Photonics Conference, 23–27 September 2012, Burlingame, CA, USA. Article number 6358837, pp. 745-746. |
16 | M. Lenner, R. Wüest, A. Frank, B. Gülenaltin, K. Bohnert, Characterization of fiber wave retarders for interferometric fiber-optic current sensors, IEEE Avionics and Fiber Optics Conference, 4–6 October 2011, San Diego, CA, USA. Article number 6082121, pp. 49-50. |
17 | Eingeladener Beitrag: M. Lenner, P Dombi, N. Kroó, Nonlinear STM Plasmonics, Physics of Quantum Electronics, 4–8 January 2009, Snowbird, Utah, USA. |
18 | M. Lenner, A. Kaplan, R. E. Palmer, Ultrafast Laser Ablation of Graphite, Photonics North, 5 June 2007, Ottawa, Canada. |
19 | M. Lenner, A. Kaplan, R. E. Palmer, New fragmentation mapping method to study ablation processes, DIET XI. 11–15 March 2007, Berlin, Germany. |
20 | Eingeladener Beitrag: M. Lenner, A. Kaplan, R. E. Palmer, Ultrafast laser ablation of graphite, Building Futures: Indo-UK Nanotechnology Conference, 19–21 November 2006, Kolkata, India. |
21 | M. Lenner, A. Kaplan, C. Huchon, R. E. Palmer, Breakdown of the electronical neutrality in graphite, IAMPI,1–5 October 2006, Szeged, Hungary. |
22 | M. Lenner, A. Kaplan, R. E. Palmer, Coulomb explosion in semi-metals, Quantum Physics of Nanostructures, 18–20 September 2006, Stratford-upon-Avon, UK. |
23 | M. Lenner, A. Kaplan, C. Huchon, R. E. Palmer, Ultrafast ablation of graphite, Super Intense Laser Atom Physics 2006, 19–22 June 2006, Salamanca, Spain. |
24 | M. Lenner, A. Kaplan, R. E. Palmer, Surface electrical neutrality breakdown in ultrafast laser ablation of graphite, 5th International Symposium on Ultrafast Surface Dynamics, May 21–25, 2006, Abashiri, Japan. |
25 | M. Lenner, A. Kaplan, R. E. Palmer, Femtosecond Graphite Ablation, Imperial College, London, 8 April 2006. |
26 | M. Lenner, A., Fiedler, Ch. Spielmann, Characterization of Eye Protective Optical Filters in the Femtosecond Regime, FemtoMat 2004, 25–28 February 2004, Bad Kleinkirchheim, Austria. |
27 | M. Lenner, A. Fiedler, Ch. Spielmann, Protective Eye Wear for Femtosecond Laser Pulses, FemtoMat 2002, 24–26 October 2002, Visegrád, Hungary. |
28 | J. Krüger, M. Lenzner, S. Martin, M. Lenner, C. Spielmann, A. Fiedler, W. Kautek, Single- and multi-pulse femtosecond laser ablation of optical filter materials, EMRS 2002 Spring Meeting, 18–21 June 2002, Strasbourg, France. |
29 | J. Krüger, M. Lenzner, S. Martin, W. Kautek, M. Lenner, C. Spielmann, A. Fielder, Femtosecond laser-induced damage in absorbing filters used for laser protection, High-Power Laser Ablation IV Confernce, 21–26 April 2002, Taos, New Mexico, USA. Proceedings of the SPIE - The International Society for Optical Engineering 4760 398-405 (2002). |