Fraunhofer ENAS zeigt auf der begleitenden Ausstellung gemeinsam mit dem Zentrum für Mikrotechnologien der TU Chemnitz ausgewählte Forschungsprojekte, Technologien sowie Sensor-und Aktorsysteme und präsentiert aktuelle Forschungsergebnisse in Vorträgen und Postern.

 

Vorträge

Do, 28.04.2022 | Keynote Central
Smart Systems will create the future
Harald Kuhn, Institutsleiter, Fraunhofer ENAS

 

Mi, 27.04.2022 | Track 1 Parallel Session 1
High Precision Liquid Level and Leak Detection Based on Capacitive Micromachined Ultrasound Transducer
Nooshin Saeidi, Fraunhofer ENAS

Mi, 27.04.2022 | Track 1 Parallel Session 1
High-resolution projection lithography for MEMS-applications using thick photoresist AZ® 10XT
Sebastian Schermer, TU Chemnitz

Mi, 27.04.2022 | Track 1 Parallel Session 1
THE ROLE OF DISORDER IN ELEMENTARY PHOTONIC COMPONENTS – THEORETICAL AND EXPERIMENTAL CONSIDERATIONS
Thomas Blaudeck, TU Chemnitz

Mi, 27.04.2022 | Track 1 Parallel Session 1
PRECISION FLUID DEPOSITION OF NANOSTRUCTURED PHOTONIC LAYERS
Thomas Blaudeck, TU Chemnitz  

Mi, 27.04.2022 | Track 1 Parallel Session 2
Parametrically Generated FE Models for the Design for Reliability of Classical and Embedded Power Modules
Kshitij Kolas, Fraunhofer ENAS

Do, 28.04.2022 Track 1 Parallel Session 3
Functional CMOS extension with integrated carbon nano devices
Simon Böttger, Chemnitz University of Technology  

 

Poster

Mi, 27.04.2022 | Track 1 Poster Pitch Session
Multi-mode silicon waveguides for gas measurement at long-wave infrared wavelengths
Julia Wecker, Fraunhofer ENAS

Mi, 27.04.2022 | Track 1 Poster Pitch Session
Fabrication of Nanoimprint-Lithography masters for optical nano gratings
Christian Helke, TU Chemnitz  

Mi, 27.04.2022 | Track 2 Poster Pitch Session
Modeling and Characterization of a 3D Environment for the Design of an Inductively Based Locating Method by Coil Couplings
Sven Lange, Paderborn University  

Mi, 27.04.2022 | Track 2 Poster Pitch Session
Farfield Calculation from magnetic Huygens Box Data using the Boundary Element Method
Christoph Marschalt, Paderborn University