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MA: Fachverband Magnetismus

MA 1: Surface Magnetism (joint session MA/O)

MA 1.5: Vortrag

Montag, 27. September 2021, 11:15–11:30, H5

Spin-resolved Fermi Surface of Ultrathin Ferromagnetic FePd Alloy Monolayers — •Xin Liang Tan1, Kenta Hagiwara1, Ying-Jiun Chen1,2, Vitaliy Feyer1, Claus M. Schneider1,2, and Christian Tusche1,21Forschungszentrum Jülich, Peter Grünberg Institut, Jülich — 2Fakultät für Physik, Universität Duisburg-Essen, Duisburg

Magnetism in reduced dimensions is one of the preconditions for the realization of nanoscale spintronics. Despite the recent discovery of ferromagnetism in monolayers of two-dimensional materials, tunability and engineering on such systems are challenging. Here we have studied the electronic structure of ultrathin ferromagnetic iron-palladium alloy films using spin-resolved momentum microscopy. Momentum microscopy enables the two-dimensional detection of photoelectrons with an in-plane crystal momentum over the full Brillouin zone. By employing an imaging spin filter, spin-resolved momentum maps of the iron-palladium alloy were acquired. Breaking of time reversal symmetry by the remanent magnetization of the film manifests in a pronounced anisotropy of the electron states in the Fermi surface. In particular, the competition between exchange interaction and strong spin-orbit coupling in the FePd alloy leads to the formation of wave-vector dependent local gaps in the Fermi surface. Moreover, the spin-resolved maps recorded by the momentum microscope give evidence for a non-collinear spin texture of the electron states at the Fermi surface, where the local spin polarization vector points orthogonal to the remanent magnetization of the sample.

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