Spin Electronics Group

Description
The team's activities focus on experimental research on spin phenomena in thin multilayer structures. Team members design, fabricate and perform research on novel prototype spintronic devices such as memory cells, magnetic field sensors, high-frequency components and neural network elements for the energy-efficient electronics of the future.
Laboratories:
Atomic Force Microscopy laboratory
Laboratory of magneto-transport measurements
Magnetic field sensors laboratory
Structural research laboratory
Magneto-optical research laboratory
Sensor Technology Laboratory
Laboratory of Programming Basis
Cooperation:
Thin Films Team, Institute of Molecular Physics, Polish Academy of Science, Poznań, Poland, prof. Piotr Kuświk
Research Center for Emerging Computing Technologies, National Institute of Advanced Industrial Science and Technology (AIST), Tsukuba, Japan, prof. Shinji Yuasa
Nanomagnetism and Spintronics, Aalto University, Espoo, Finland, prof. Sebastiaan van Dijken
INESC MN, Lisbon, Portugal, prof. Susana Cardoso
Clarendon Laboratory, University of Oxford, United Kingdom, dr. Safeer C.K.
School of Integrated Circuits, Tsinghua University, Beijing, China, prof. Tianxiang Nan
Singulus Technologies, Kahl am Main, Germany, dr inż. Jerzy Wrona
Istituto Nazionale di Ricerca Metrologica, Torino, Italy, dr. Michaela Kuepferling

Contact

Institute of Electronics WIEiT
30-059 Kraków, al. Adama Mickiewicza 30/C1, 30-059 Kraków
12 617 25 53

Leading unit

Faculty of Computer Science, Electronics and Telecommunications - Institute of Electronics

Team leader

Skowroński Witold

Team members

  • Wiśniowski Piotr
  • Kanak Jarosław
  • Czapkiewicz Maciej
  • Ziętek Sławomir
  • Grochot Krzysztof
  • Cecot Monika
  • Chęciński Jakub
  • Szklarski Zbigniew
  • Powroźnik Wiesław
  • Stobiecki Tomasz
  • Mojsiejuk Jakub

IDUB research areas

  • Technical solutions: from fundamental research, through modelling and design, to prototypes. The application of mathematical, information technology, and electronics tools to macro-, micro-, and nanoscale problems
  • Materials, technologies, and processes inspired by nature: biotechnology, bioinspirations in engineering and materials science, biosensors, bioenergetics, biocatalysis, biocomputers, and biocomputation
  • Intelligent information, telecommunication, computer, and control and operation technologies
  • Design, production, and testing of modern materials and the technologies of the future based on a multidisciplinary approach combining materials engineering with chemistry, physics, mathematics, and medicine

Keywords

nanotechnologyspin electronicssolid state physicsnew materials and electronic systemssensor technologystructural investigationmodeling of thin-film systems