Altermagnets represent a newly recognized class of materials in magnetism that could enable novel applications in spin-based electronics. Their magnetically ordered state consists of an antiparallel arrangement of microscopic magnetic moments, so-called spins, as in antiferromagnets. In contrast to antiferromagnetism, however, the altermagnetic state with zero net-magnetization enables the generation of electrical currents with spin polarization, as required in spin-based electronics. Thus, altermagnets combine the advantages of antiferromagnets, i.e., ultrafast dynamics, and ferromagnets, i.e., large spin polarization.
In collaboration with a theoretical team led by Professor Jairo Sinova and Dr. Libor Šmejkal, experimental physicist Dr. Sonka Reimers and her colleagues in Professor Mathias Kläui's lab at the Institute of Physics at Johannes Gutenberg University Mainz (JGU) have demonstrated altermagnetic electronic band splitting associated with spin polarization in CrSb. "The magnitude of this spitting, observed in a good conductor and at room temperature, is extraordinary and promising with regard to electronic applications of altermagnetic materials", said Professor Martin Jourdan, coordinator of the study recently published in Nature Communications.
Related links:
- https://www.klaeui-lab.physik.uni-mainz.de/ – Kläui Lab at the JGU Institute of Physics
- https://www.blogs.uni-mainz.de/fb08-iph-eng/ – Institute of Physics at Johannes Gutenberg University Mainz (JGU)