Focus Group F3 "Comparison of Sensor Concepts"

This focus group is dedicated to establishing common definitions of sensor performance parameters such as sensitivity, frequency behavior, or limit of detection (LOD). Measurement procedures are defined to allow for comparability of performance results. The sensors developed in the CRC are compared to other types of magnetic field sensors.

The focus group is lead by Michael Höft.The following projects participate in the focus group:

  • A1 (Magnetostrictive Multilayers for Magnetoelectric Sensors)
  • A2 (Hybrid Magnetoelectric Sensors Based on Mechanically Soft Composite Materials)
  • A4 (ΔE-Effect Sensors)
  • A5 (Piezotronic Magnetoelectric Composites)
  • A7 (Electrically Modulated Magnetoelectric Sensors)
  • A9 (Surface Acoustic Wave Magnetic Field Sensors)
  • B1 (Sensor Noise Performance and Analogue System Design)
  • B2 (Digital Signal Processing)
  • B9 (Magnetoelectric Sensors for Movement Detection and Analysis)
  • B10 (Magnetoelectric Sensor Systems for Cardiologic Applications)
  • Z2 (Magnetoelectric Sensor Characterization)

 

Participating Researchers

Involved researchers Projects
Rainer Adelung A2 - Hybrid Magnetoelectric Sensors Based on Mechanically Soft Composite Materials
Ari A. Ahmad A4 - ΔE-Effect Sensors
Zeynep Altintas B12 - Bioinspired Nanocomposites for Early Detection of Complications in Gastrointestinal Surgery
Tayebeh Ameri A2 - Hybrid Magnetoelectric Sensors Based on Mechanically Soft Composite Materials
Johan Arbustini B1 - Sensor Noise Performance and Analogue System Design
Lucie Bangert B12 - Bioinspired Nanocomposites for Early Detection of Complications in Gastrointestinal Surgery
Giuseppe Barbieri A8 - Modelling of Magnetoelectric Sensors
Lukas Elsner B10 - Magnetoelectric Sensor Systems for Cardiologic Applications
Eric Elzenheimer Z2 - Magnetoelectric Sensor Characterization
Franz Faupel B7 - 3D-Imaging of Magnetically Labelled Cells
Martina Gerken
Bjoern Gojdka
Michael Höft B1 - Sensor Noise Performance and Analogue System Design
Z2 - Magnetoelectric Sensor Characterization
Sören Kaps A2 - Hybrid Magnetoelectric Sensors Based on Mechanically Soft Composite Materials
A5 - Piezotronic Magnetoelectric Composites
Fabian Lofink A9 - Surface Acoustic Wave Magnetic Field Sensors
Jeffrey McCord A1 - Magnetostrictive Multilayers for Magnetoelectric Sensors
A10 - Magnetic Noise of Magnetoelectric Sensors
Jana Meyer A9 - Surface Acoustic Wave Magnetic Field Sensors
Dirk Meyners A1 - Magnetostrictive Multilayers for Magnetoelectric Sensors
Z1 - MEMS Magnetoelectric Sensor Fabrication
Marc Alexander Nowak Z1 - MEMS Magnetoelectric Sensor Fabrication
Rahil Radfar B12 - Bioinspired Nanocomposites for Early Detection of Complications in Gastrointestinal Surgery
Robert Rieger A4 - ∆E-Effect Sensors
B1 - Sensor Noise Performance and Analogue System Design
Z2 - Magnetoelectric Sensor Characterization
Mohsen Samadi A8 - Modelling of Magnetoelectric Sensors
Felix Schlichting A7 - Electrically Modulated Magnetoelectric Sensors
Gerhard Schmidt B2 - Digital Signal Processing
B9 - Magnetoelectric Sensors for Movement Detection and Analysis
B10 - Magnetoelectric Sensor Systems for Cardiologic Applications
Stefan Schröder A2 - Hybrid Magnetoelectric Sensors Based on Mechanically Soft Composite Materials
Thomas Strunskus
Benjamin Spetzler A4 - ΔE-Effect Sensors
Elizaveta Spetzler A1 - Magnetostrictive Multilayers for Magnetoelectric Sensors
A10 - Magnetic Noise of Magnetoelectric Sensors
Felix Weisheit A9 - Surface Acoustic Wave Magnetic Field Sensors
Patrick Wiegand A4 - ΔE-Effect Sensors
Henrik Wolframm B1 - Analog Signal Processing
Stephan Wulfinghoff A10 - Magnetic Noise of Magnetoelectric Sensors
Lukas Zimoch A2 - Hybrid Magnetoelectric Sensors Based on Mechanically Soft Composite Materials