Dresden 2026 – scientific programme

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MA: Fachverband Magnetismus

MA 13: Magnetic Heuslers and Semiconductors

MA 13.1: Talk

Monday, March 9, 2026, 15:00–15:15, POT/0361

Investigation on the interplay of antisite disorder and magnetic ordering in Co₂FeAl_1−xSi_x Heusler system — •Ahmad Omar¹, Matthias Frontzek², Robin Kramer¹, Bernd Büchner¹, and Sabine Wurmehl¹ — ¹Leibniz Institute for Solid State and Materials Research Dresden, Germany — ²PSI Villigen, Switzerland

Quaternary Co-based Heusler compounds such as Co₂FeAl_1−xSi_x system are predicted to demonstrate half-metallic ferromagnetism for the L2₁ ordered structure. However, the observed physical properties, are often in contrast to theory due to antisite disorder commonly present in practical samples. The L2₁- B₂ order-disorder transition is further convoluted with the ferromagnetic transition and is not well understood. Therefore, it is pertinent to understand the ordering phenomenon and develop routes to improve the order for practical realization of the desired properties. Herein, we present a systematic study of the impact of synthesis route and annealing parameters on the obtained order fraction in the samples, through detailed structural and magnetic characterization. In-situ neutron diffraction is performed during annealing to directly investigate the order-disorder transition. The interplay of disorder and the magnetic ordering is further studied through magnetic field annealing experiments. We aim to elucidate the structure-property relationships in the quaternary Co₂FeAl_1−xSi_x system, developing methodology for tuning of the disorder through synthesis or post-processing routes, thus enabling a practical realization of half metallic ferromagnetism in the Heusler system.

Keywords: Co-based Heusler; Order-disorder transition; Neutron diffraction; Annealing