Martin-Luther-Universität Halle-Wittenberg

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2025

  1. B. Göbel, L. Schimpf, I. Mertig
    Topological orbital Hall effect caused by skyrmions and antiferromagnetic skyrmions
    Communications Physics 8, 17 (2025)   
  2. W. Beida, E. Şaşıoğlu, M. Tas, C. Friedrich, S. Blügel, I. Mertig, I. Galanakis
    Correlation effects in two-dimensional MX2 and MA2Z4 (M = Nb, Ta; X = S, Se, Te; A = Si, Ge; Z = N, P) cold metals: Implications for device applications
    Phys. Rev. Materials 9, 014006 (2025)   
  3. E. Şaşıoğlu, M. Tas, S. Ghosh, W. Beida, B. Sanyal, S. Blügel, I. Mertig, I. Galanakis
    Spin gapped metals: A novel class of materials for multifunctional spintronic devices
    J. Magn. Magn. Mater. (2025)   
  4. E Şaşıoğlu, P Bodewei, NF Hinsche, I Mertig
    Multifunctional steep-slope spintronic transistors with spin-gapless-semiconductor or spin-gapped-metal electrodes
    Phys. Rev. Applied 23, 044022 (2025)   
  5. I. Ribeiro de Assis, I. Mertig, B. Göbel
    RC circuit based on magnetic skyrmions
    Phys. Rev. B (2025)   
  6. B. Göbel, L. Schimpf, I. Mertig
    Chirality-induced spin selectivity based on orbital Edelstein effect in an analytically solvable model
    arXiv preprint:2502.04978 (2025)   
  7. Y. Höpfner, I. Mertig, R. R. Neumann
    Sign Changes in Heat, Spin, and Orbital Magnon Transport Coefficients in Kitaev Ferromagnets
    arXiv preprint:2502.15449 (2025)   

  8. M. Nawwar, R. R. Neumann, J. Wen, A. Mook, I. Mertig, J. P. Heremans
    Large Thermal Hall Effect in MnPS3
    arXiv preprint:2503.11639 (2025)   

  9. B. Göbel, I. Mertig, S. Lounis
    Chirality-induced selectivity of angular momentum by orbital Edelstein effect in carbon nanotubes
    arXiv preprint:2504.07665 (2025)   

  10. O. Busch, F. Ziolkowski, B. Göbel, I. Mertig, J. Henk
    Nonlinear spin and orbital Rashba-Edelstein effects induced by a femtosecond laser pulse: Simulations for Au(001)
    arXiv preprint:2505.02006 (2025)   

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