Dipl.-Ing. Dr. Wilfried Hortschitz
Wissenschaftlicher Mitarbeiter - Zentrum für Mikro- und Nanosensorik
- wilfried.hortschitz@donau-uni.ac.at
- +43 2622 23420-25
- +43 2622 23420-99 (Fax)
- Zum Kontaktformular
- TFZ Wiener Neustadt, Bauteil E - Stock 2
- Universität für Weiterbildung Krems
- Zentrum für Mikro- und Nanosensorik
- Viktor Kaplan Straße 2 - Bauteil E
- 2700 Wiener Neustadt
- Österreich
Zur Person
Wilfried Hortschitz received his master degree in 2007 at Johannes Kepler University in Linz. In the course of his diploma thesis at the Institute for Measurement Technology he developed a new sensor for enhancing the processes on cybernetic seeding machines. Due to his interests in sensor development and interdisciplinary working he joined the Center for Integrated Sensor Systems. He worked on the development of a fully implantable middle ear microphone, which can be used in combination with cochlea prosthesis, and is now developing hybrid optical MEMS displacement sensors.
Projekte (Auszug Forschungsdatenbank)
Sensor system for lightning warnings
Mobiles Hochspannungs-Warnsystem
Electric Field Sensing - Elfis
Composite organic and silicon technologies on flexible substrates
Hybride micromechanische Sensoren für Verschiebung und Beschleunigung
Publikationen (Auszug Forschungsdatenbank)
Kahr, M.; Stifter, M.; Steiner, H.; Hortschitz, W.; Kovacs, G.; Kainz, A.; Schalko, J.; Keplinger, F. (2019). Dual Resonator MEMS Magnetic Field Gradiometer. Sensors (MDPI), 19(3): 493
Kainz, A.; Keplinger, F.; Hortschitz, W.; Kahr, M.; Steiner, H.; Stifter, M.; Hunt, J. R.; Resta-Lopez, J.; Rodin, V.; Welsch, C. P.; Borburgh, J.; Fraser, M. A.; Bartmann, W. (2019). Noninvasive 3D Field Mapping of Complex Static Electric Fields. PHYSICAL REVIEW LETTERS, Vol. 122: 244801
Kainz, A.; Steiner, H.; Hortschitz, W.; Schalko, J.; Jachimowicz, A.; Keplinger, F. (2019). Improved Reference-Free Vibration-Suppressed Optical MEMS Electric Field Strength Sensor. In: IEEE, proceedings 2019 20th International Conference on Solid-State Sensors, Actuators and Microsystems & Eurosensors XXXIII (TRANSDUCERS & EUROSENSORS XXXIII): 2114-2117, IEEE, Deutschland
Hortschitz, W.; Kainz, A.; Kovacs, G.; Steiner, H.; Stifter, M.; Sauter, T.; Schalko, J.; Jachimowicz, A.; Keplinger, F. (2018). Robust, ultra sensitive MOEMS inertial sensor read out with infrared light. 2018 IEEE Micro Electro Mechanical Systems (MEMS), Vol. 1: 952-955
Kainz, A.; Hortschitz, W.; Steiner, H.; Stifter, M.; Schalko, J.; Jachimowicz, A.; Keplinger, F. (2018). Passive optomechanical electric field strength sensor with built-in vibration suppression. Applied Physics Letters, Vol. 113, iss. 14: 143505
Hammer, G.; Kainz, A.; Hortschitz, W.; Zan, H. W.; Meng, H. F.; Sauter, T.; Keplinger, F. (2018). Detection of Heart and Respiration Rate with an Organic-Semiconductor-Based Optomechanical MEMS Sensor. Proceedings Eurosensors 2018, Vol. 2, iss. 13: 715
Hortschitz, W.; Kainz, A.; Steiner, H.; Kovacs, G.; Stifter, M.; Kahr, M.; Schalko, J.; Keplinger, F. (2018). Characterization of a Micro-Opto-Mechanical Transducer for the Electric Field Strength. Proceedings Eurosensors 2018, Vol. 2, iss. 13: 855
Kahr, M.; Domke, M.; Steiner, H.; Hortschitz, W.; Stifter, M. (2018). Borosilicate Glass MEMS Lorentz Force Magnetometer. Proceedings Eurosensors 2018, Vol. 2, iss. 13: 788
Kahr, M.; Hortschitz, W.; Steiner, H.; Stifter, M.; Kainz, A.; Keplinger, F. (2018). Novel 3D-Printed MEMS Magnetometer with Optical Detection. Proceedings Eurosensors 2018, Vol. 2, iss. 13: 783
Kahr, M.; Steiner, H.; Hortschitz, W.; Stifter, M.; Kainz, A.; Keplinger, F. (2018). 3D-Printed MEMS Magnetometer Featuring Compliant Mechanism. Proceedings Eurosensors 2018, Vol. 2, iss. 13: 784
Kahr, M.; Stifter, M.; Steiner, H.; Hortschitz, W.; Kovacs, G.; Kainz, A.; Schalko, J.; Keplinger, F. (2018). Responsitivity Measurement of a Lorentz Force Transducer for Homogeneous and Inhomogeneous Magnetic Fields. Proceedings Eurosensors 2018, Vol. 2, iss. 13: 843
Kahr, M.; Stifter, M.; Steiner, H.; Hortschitz, W.; Kovacs, G.; Kainz, A.; Schalko, J.; Keplinger, F. (2018). MOEMS Based Single Chip Lorentz Force Magnetic Gradiometer. Proceedings Eurosensors 2018, Vol. 2, iss. 13: 724
Kahr, M.; Stifter, M.; Steiner, H.; Hortschitz, W.; Kovacs, G.; Kainz, A.; Schalko, J.; Keplinger, F. (2018). Characterisation of a Quadrupol Magnetic Field Configuration with a Lorentz Force based MOEMS Gradiometer . IEEE, Conference Proceedings IEEE Sensors2018
Kainz, A.; Hortschitz, W.; Steiner, H.; Stifter, M.; Keplinger, F. (2018). Equivalent Circuit Model of an Optomechanical MEMS Electric Field Strength Sensor. Proceedings Eurosensors 2018, Vol. 2, iss. 13: 712
Steiner, H.; Kainz, A.; Stifter, M.; Kahr, M.; Kovacs, G.; Keplinger, F.; Hortschitz, W. (2018). Cross-Sensitivity of an Optomechanical MEMS Transducer. Proceedings Eurosensors 2018, Vol. 2, iss. 13: 719
Kainz, A.; Steiner, H.; Schalko, J.; Jachimowicz, A.; Kohl, F.; Stifter, M.; Beigelbeck, R.; Keplinger, F.; Hortschitz, W. (2018). Distortion-free measurement of electric field strength with a MEMS sensor. Nature Electronics, 1: 68-73
Chen, C.; Lin, C.; Wang, K.; Liu, H.; Zan, H.; Meng, H.; Hortschitz, W.; Steiner, H.; Kainz, A.; Sauter, T. (2017). High-resolution proximity sensor using flexible semi-transparent organic photo detector. Organic Electronics, 49: 305-312
Kainz, A.; Hortschitz, W.; Steiner, H.; Schalko, J.; Jachimowicz, A.; Keplinger, F. (2017). Accurate analytical model for air damping in lateral MEMS/MOEMS oscillators. Sensors and Actuators A-Physical, 255: 154-159
Steiner, H.; Hortschitz, W.; Kainz, A.; Stifter, M.; Jachimowicz, A.; Schalko, J.; Keplinger, F.; Kohl, F. (2017). MOEMS transducer with a non-linear transfer characteristic for static displacement measurement applications on the example of an inclination sensor. Sensors and Actuators A-Physical, 263: 727-732
Stifter, M.; Steiner, H.; Hortschitz, W.; Sauter, T.; Glatzl, T.; Dabsch, A.; Keplinger, F. (2016). MEMS micro-Wire Magnetic Field Detection Method at CERN. IEEE Sensors Journal, 16(24): 8744-8751
Vorträge (Auszug Forschungsdatenbank)
Entwicklung neuer Messtechnik zu statischen Feldern
Fachgespräch „Forschungsstand Stromnetze und Mobilfunk“, 16.05.2022
Robust, ultra sensitive MOEMS inertial sensor read out with infrared light
2018 IEEE Micro Electro Mechanical Systems (MEMS), Belfast, Irland, 23.01.2018
Novel MOEMS Lorentz force transducer for magnetic fields
Eurosensors XXX, Budapest, Hungary, 2016, 07.09.2016
Extremely Low Resonance Frequncy MOEMS Vibration Sensors with sub-pm Resolution
IEEE Sensors 2014, 04.11.2014
MOEMS Vibration Sensor for Advanced Low-Frequency Applications with pm Resolution
EUROSENSORS 2014, 10.09.2014
Concept of a Thermal Flow Sensor Integration on Circuit Board Level
18th International Conference on Emerging Technologies and Factory Automation (ETFA), Cagliari, 12.09.2013
A miniaturized linear shaker system for MEMS sensor characterization
SPIE 2013 Microtechnologies, 25.04.2013
A Lorentz force actuated magnetic field sensor with capacitive read-out
SPIE 2013 Microtechnoligies, 25.04.2013
Exploiting infrared transparency of silicon for the construction of advanced MOEMS vibration sensors
SPIE 2013 Microtechnoligies, 25.04.2013
Patente (Auszug Forschungsdatenbank)
Sensor
Zentrum für Mikro- und Nanosensorik
Patent-Nr: A 51104/2019, Status: Anmeldung
Vorrichtung zur Messung eines elektronischen Felds
Zentrum für Mikro- und Nanosensorik
Patent-Nr: 520811, Status: Erteilung