On Friday October 11th 2024, we have the pleasure to welcome in SPINTEC Quintin N. Meier from Institut Néel, CNRS. He will give us a seminar at 11:00 entitled : Beyond multiferroicity: Structural order parameters enabling unconventional magnetism Place : IRIG/SPINTEC, auditorium 445 CEA Building 10.05 (access to CEA requires an entry authorization. Request it […]
Read moreOn October 02th, at 14:30, Salvatore TERESI (SPINTEC) will defend his PhD thesis entitled : Spin-charge interconversion nanodevices based on telluride materials for low power computing Place : IRIG/SPINTEC, CEA Building 10.05, auditorium 445 (access needs authorization request it before september 20th to admin.spintec@cea.fr) visio conference : https://univ-grenoble-alpes-fr.zoom.us/j/3241920232 Abstract : With the recent proposals of […]
Read moreOn Friday September 13th 2023, Louise DESPLAT from SPINTEC will give us a seminar at 11:00 entitled : Atomistic exploration of topological states in ultrathin magnetic films and nanopillars Place : IRIG/SPINTEC, auditorium 445 CEA Building 10.05 (access to CEA requires an entry authorization. Request it before September 04th at admin.spintec@cea.fr) Video conference : https://univ-grenoble-alpes-fr.zoom.us/j/98769867024?pwd=dXNnT3RMeThjYStybGVQSUN0TVdJdz09 […]
Read moreWe propose the concept of a core-shell composite structure coupled antiparallel via dipolar interaction, as the storage layer in perpendicular-shape-anisotropy magnetic random access memory (PSA MRAM). Benefits compared with a standard PSA MRAM include a reduced write time and the stray field. CoFeB core with a Co shell (height 8 nm; diameters 14 and 20 […]
Read moreMagnetic skyrmions are magnetic nanobubbles which are envisioned as bits of informations in our computers. A team from the Spintec laboratory in Grenoble has demonstrated that they can be moved by electric current at record speeds, up to 900 m/s, in antiferromagnetic stacks. These results hold promise for the use of skyrmions to store and […]
Read moreBy using THz spintronic emission, we could study the spin-charge conversion mechanisms in 2D materials. High crystalline quality 2D materials are grown by molecular beam epitaxy on large area and CoFeB is deposited on top using soft UHV sputtering to obtain sharp interfaces. Such model system allows us to identify and quantify the spin-charge conversion […]
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