Fraunhofer Institute for Electronic Nano Systems
Fraunhofer ENAS together with the Center for Microtechnologies of the Chemnitz University of Technology shows selected research projects, technologies as well as sensor and actuator systems at the accompanying exhibition and presents current research results in oral presentations and posters.
Oral presentations
Thu, 28.04.2022 | Keynote Central
Smart Systems will create the future
Harald Kuhn, Director, Fraunhofer ENAS
Wed, 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
Wed, 27.04.2022 | Track 1 Parallel Session 1
High-resolution projection lithography for MEMS-applications using thick photoresist AZ® 10XT
Sebastian Schermer, TU Chemnitz
Wed, 27.04.2022 | Track 1 Parallel Session 1
THE ROLE OF DISORDER IN ELEMENTARY PHOTONIC COMPONENTS – THEORETICAL AND EXPERIMENTAL CONSIDERATIONS
Thomas Blaudeck, TU Chemnitz
Wed, 27.04.2022 | Track 1 Parallel Session 1
PRECISION FLUID DEPOSITION OF NANOSTRUCTURED PHOTONIC LAYERS
Thomas Blaudeck, TU Chemnitz
Wed, 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
Thu, 28.04.2022 Track 1 Parallel Session 3
Functional CMOS extension with integrated carbon nano devices
Simon Böttger, Chemnitz University of Technology
Posters
Wed, 27.04.2022 | Track 1 Poster Pitch Session
Multi-mode silicon waveguides for gas measurement at long-wave infrared wavelengths
Julia Wecker, Fraunhofer ENAS
Wed, 27.04.2022 | Track 1 Poster Pitch Session
Fabrication of Nanoimprint-Lithography masters for optical nano gratings
Christian Helke, TU Chemnitz
Wed, 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
Wed, 27.04.2022 | Track 2 Poster Pitch Session
Farfield Calculation from magnetic Huygens Box Data using the Boundary Element Method
Christoph Marschalt, Paderborn University