Generation of ultrafast magnetic steps for coherent control

Journal article

A long-standing challenge in ultrafast magnetism and functional materials research, in general, has been the generation of a universal, ultrafast stimulus able to switch between stable magnetic states. Solving this problem would open up many new opportunities for fundamental studies, potentially impacting future data storage technologies. Ideally, step-like magnetic field transients with infinitely fast rise time would serve this purpose. Here we develop a new approach to generate ultrafast magnetic field steps by quenching supercurrents in a superconductor. We achieve magnetic field steps with millitesla amplitude, picosecond rise times and slew rates approaching 1 GT s–1. We test the potential of this technique by coherently rotating the magnetization in a ferrimagnet. Although in the current geometry, the magnetic field step is not sufficient to achieve complete switching, suitable improvements in the device geometry could make these magnetic steps both larger and faster. We foresee new applications ranging from quenches across phase transitions to complete switching of magnetic order parameters.

Authors: De Vecchi, G; Jotzu, G; Buzzi, M; Fava, S; Gebert, T

• Publication status: Published
• Peer review status: Peer reviewed
• Publisher: Nature Research
• Journal: Nature Photonics
• Volume: 19
• Issue: 6
• Pages: 601-606
• Publication date: 2025-04-02
• Acceptance date: 2025-02-26
• DOI: 10.1038/s41566-025-01651-y
• EISSN: 1749-4893
• ISSN: 1749-4885
• Language: English