Prof. Dr. Ing. Dirk Rüter

Prof. Rüter engages in teaching and research with an explicit scientific focus aimed at the academic advancement of early-career researchers.

The best way to reach me is by email at dirk.rueter@hs-ruhrwest.de.

• Since 2010, Professor at Hochschule Ruhr West in the Institute of Measurement and Sensor Technology. Teaching areas include Materials Science, Components and Basic Electronic Circuits, as well as Electronics, Electrodynamics, and Medical Technology.
• Since 1997, active in founding and operating a consulting engineering firm for industry and medical technology in Hamburg (www.uvc.de).
• From 2007 to 2010, Branch Manager with power of attorney at an American company for optical measurement technology. Responsible for the production and development site in Saalfeld an der Saale.
• Studied Electrical Engineering from 1986 to 1991 at the Technical University of Karlsruhe, followed by doctoral studies at TU Hamburg Harburg, where he earned his doctorate with distinction in January 1997.

Prof. Dr-Ing. Dirk Rüter is the designated StartUp Officer at the Institute of Measurement and Sensor Technology.

He is also the spokesperson for the HRW research focus on “Contactless or Non-Invasive Methods.” This area frequently involves novel measurement techniques based on (light) radiation, sound or ultrasound, as well as magnetic fields or microwave energy. The methods under investigation provide advantageous access to challenging and valuable problems, for example in heavy industry or biomedical engineering.

Prof. Rüter is a full professor member of the Doctoral College NRW, serving on the commission for the investigation of scientific misconduct.

Modules of the field of study: Components, Sustainable Materials in Electrical Engineering, Endoprosthetics, Medical Technology Materials and Components

• Full professor member of the Doctoral College NRW. Currently supervising two to three doctoral projects.
   
• Primary supervisor of an excellently completed doctoral thesis in the field of “Optical In-Situ Diagnosis of Semiconductor Epitaxy Processes.”
   
• Primary supervisor of two very well-completed doctoral theses in the areas of induction fields for ultrasound and induction tomography.

Spokesperson for the HRW research focus on “Contactless or Non-Invasive Methods.” This area often involves novel measurement techniques, sensing, or manipulations based on light, radiation, sound or ultrasound, flow, as well as magnetic fields or microwave energy. The methods under investigation provide advantageous access to challenging, complex, and valuable problems, for example in heavy industry or biomedical engineering.

Laboratory Head of the
 

• Research Laboratory for Optics and Inductive Ultrasound
• Research Laboratory for Contactless Methods and Electromagnetic Fields

• Siehe auch https://scholar.google.de/  und dort dirk rueter
• Siehe auch https://www.researchgate.net/profile/Dirk-Rueter/publications
• Klein, M.; Erni, D.; Rueter, D., Three-dimensional Magnetic Induction Tomography: Improved Performance for the Center Regions inside a Low Conductive and Voluminous Body, Sensors 2020, 20, 1306.  https://doi.org/10.3390/s20051306
• Nicht-invasive Lungendiagnostik: D. Rueter, H.-P. Hauber, D. Droeman, P. Zabel, and S. Uhlig, Low-frequency ultrasound permeates the human thorax and lung: A novel approach to non-invasive monitoring, Eur. J. Ultrasound 31(01), 53–62 (2010).
• Rueter, D. 2-Stroke Scavenging in Conventional and Minimally-Modified 4-Stroke Engines for Heavy Duty Applications at Low to Medium Speeds. Inventions 2019, 4, 44.
• C. Prall, D. Erni, D. Rueter, Analysis of the Efficient High-Temperature in Situ Photoluminescence from GaN Layers during Epitaxial Growth, Condensed Matter, 2 (2017) no. 2, art. no. 19.
• D. Rueter, Experimental Demonstration and Circuitry for a Very Compact Coil-Only Pulse Echo EMAT, Sensors, 17 (2017) no 4, art. no. 926.
• D. Rueter, Induction coil as a non-contacting ultrasound transmitter and detector: Modeling of magnetic fields for improving the performance, Ultrasonics, 65 (2016) 200-210.
• C. Prall, C. Kaspari, F. Brunner, K. Haberland, M. Weyers, D. Rueter, In-situ photoluminescence measurements during MOVPE growth of GaN and InGaN MQW structures, Journal of Crystal Growth, 415 (2015) 1-6.