Dr. Nasim Bazazzadeh

Nasim Bazazzadeh

Dr. Nasim Bazazzadeh

Position Postdoctoral Researcher
Email nasim.bazazzadeh@uni-due.de
Phone 0203-379-4724
Office MG 389
Address Twist Group, Faculty of Physics
University of Duisburg-Essen
Campus Duisburg
Lotharstraße 1
D 47057 Duisburg
Contact Reseacher-ID: GPP-2510-2022
ORCID-ID: 0000-0002-2436-4680
Google Scholar Profile
Download CV (as of July 2022)

Dr. rer. nat. Nasim Bazazzadeh

Fakultät für Physik, Theoretische Physik

Address
Lotharstraße 1
47057 Duisburg
Room
MG 388
Phone
+49 203 37 94724
E-Mail
nasim.bazazzadeh@uni-due.de

Functions

  • Wissenschaftliche/r Mitarbeiter/in, Arbeitsgruppe Prof. Everschor-Sitte

Current lectures

Past lectures

The following publications are listed in the online university bibliography of the University of Duisburg-Essen. Further information may also be found on the person's personal web pages.

    Journal articles

  • Bazazzadeh, Nasim; Hamdi, Mohammad; Park, Sungjoon; Khavasi, Amin; Mohseni, S. Majid; Sadeghi, Ali
    Magnetoelastic coupling enabled tunability of magnon spin current generation in two-dimensional antiferromagnets
    In: Physical Review B Vol. 104 (2021) Nr. 18,
    ISSN: 1095-3795; 1550-235X; 2469-9969; 0163-1829; 0556-2805; 1098-0121; 2469-9950
    Online Full Text: dx.doi.org/ (Open Access)
  • Bazazzadeh, Nasim; Hamdi, Mohammad; Haddadi, F.; Khavasi, Amin; Sadeghi, Ali; Mohseni, S. Majid
    Symmetry enhanced spin-Nernst effect in honeycomb antiferromagnetic transition metal trichalcogenide monolayers
    In: Physical Review B Vol. 103 (2021) Nr. 1,
    ISSN: 1095-3795; 1550-235X; 2469-9969; 0163-1829; 0556-2805; 1098-0121; 2469-9950
    Online Full Text: dx.doi.org/
  • Bazazzadeh, Nasim; Mohseni, Seyed Majid; Khavasi, Amin; Zibaii, Mohammad Ismail; Movahed, S.M.S.; Jafari, Gholam Reza
    Dynamics of magnetic nano-flake vortices in Newtonian fluids
    In: Journal of Magnetism and Magnetic Materials Vol. 419 (2016) pp. 547 - 552
    ISSN: 0304-8853; 1873-4766
    Online Full Text: dx.doi.org/ (Open Access)

The systematic investigation of material inhomogeneities is a very important research area in spintronics due to the role it plays in understanding hysteresis behavior.

In my research, I use data-driven inference methods and magnetic multiscale modeling to gain a deeper understanding of inhomogeneities. I also use density functional theory (DFT) for extracting magnetic properties.