Magneto-Electric Kerr Effect (MOKE) is a versatile method to study magnetism. We built a sensitive MOKE microscope capable of imaging ultra-thin in-plane magnetic films and nano-structures. We utilized this microscope to study magnetic switching, domain wall motion and Skyrmionic bubbles.
S. Chenattukuzhiyil, M. A. Nsibi, J. Nath, H. Yang, S. Auffret, I. Joumard, G. Gaudin, I. M. Miron, “Effect of chiral damping on the dynamics of chiral domain walls and skyrmions,” (submitted).
M. A. Nsibi, J. Nath, I. Joumard, S. Auffret, I. M. Miron, G. Gaudin, “Current-induced distortion of magnetic bubbles in out-of-plane anisotropy thin layers," Joint MMM-Intermag Conference, AC-09, USA, 2019. (Talk)
J. Nath, M. A. Nsibi, A. V. Trifu, T. Brächer, I. Joumard, S. Auffret, I. M. Miron, G. Gaudin, "Study of heavy metal/ ferromagnetic thin films with in-plane anisotropy using wide-field MOKE," 18ème Colloque Louis Néel, France, 2017 (Poster).