Personal profile

prof. UAM dr hab. Anna Dyrdał
researcher
Room No.: 14
phone: +48 61 8 295 288
e-mail: adyrdal()amu.edu.pl

Anna Dyrdał
About
Area of interests
- spin-orbit driven phenomena
  (anomalous and spin Hall effect, spin Nernst effect, current-induced spin polarization, etc.)
- electron and spin transport in semiconductor heterostructures, graphene and other graphene-like materials
- analytical methods of quantum field theory in the physics of solid state

Projects
- Theoretical study of the magnetoresistance phenomena in 2D structures with strong spin-orbit interactions
   Project 'Sonata 14' financed by the National Science Centre (Poland) in years 2019-2022
- Nonequilibrium spin polarization induced by spin-orbit interaction
  Project 'Iuventus Plus' financed by the Polish Ministry of Science and Higher Education in years 2015-2017
- Charge and spin transport in two-dimensional systems with spin-orbit interaction
  Project 'Preludium' financed by the National Science Centre (Poland) in years 2012-2014
Awards

Recent publications

  1. D. Vaz, F. Trier, A. Dyrdał, A. Johansson, K. Garcia, A. Barthelemy, J. Barnaś, A. Fert, M. Bibes
    Determining the Rashba parameter from the bilinear magnetoresistance response in a two-dimensional electron gas
    Phys. Rev. Materials 4, 071001(R) (2020)
  2. A. Dyrdał, J. Barnaś, A. Fert
    Spin-Momentum-Locking Inhomogeneities as a Source of Bilinear Magnetoresistance in Topological Insulators
    Phys. Rev. Lett. 124, 046802 (2020)
  3. A. Krzyżewska, A. Dyrdał
    Anomalous Hall and Nernst effects in a two-dimensional electron gas with an anisotropic cubic Rashba spin-orbit interaction
    J. Magn. Magn. Mater. 497, 165919 (2020)

Books and reviews

  1. J. Barnaś, P. Baláž, A. Dyrdał, V. K. Dugaev
    Electrical and thermal control of magnetic moments
    in Symmetry, Spin Dynamics and the Properties of Nanostructures
    edited by Vitalii Dugaev, Andrzej Wal, Józef Barnaś
    published by World Scientific (2016)
  2. J. Barnaś, A. Dyrdał, V. K. Dugaev, M. Inglot
    Thermal spin polarization in bidimensional systems
    in Magnetic Nano- and Microwires. Design, Synthesis, Properties and Applications.
    edited by Manuel Vazquez
    published by Woodhead Publishing, Elsevier (2015)