Antiferromagnetic materials could represent the future of spintronics thanks to the interesting features they combine: they are robust against perturbation due to magnetic fields, produce no stray fields, display ultrafast dynamics and generate large magneto-transport effects. In this team, research efforts are being invested in unraveling spin-dependent transport properties of antiferromagnets.
Spin transport in antiferromagnetic materials
Whether spin currents can be injected, transmitted and converted in antiferromagnetic materials, how subsequent variations can be detected, and what is the actual influence of the magnetic order are some of the thrilling challenges being addressed.
Magnetism of antiferromagnetic materials
To what extent and how the magnetic properties of antiferromagnetic materials shall and can be adjusted for use as functional materials in spintronic applications are some of the questions addressed in this activity.
- Olga Gladii, 2017-2019, now Post-Doctoral research fellow at HZDR – Germany
- Guillaume Forestier, 2016-2018, now R&D Engineer at ST-Microelectronics – France
- Lamprini Frangou, 2014-2017, now Research Associate at King’s college London – UK
- Pablo Merodio also theory group, 2011-2014, now Assistant Professor at Universidad Politécnica de Madrid – Spain
- Kamil Akmaldinov, 2011-2015, now R&D Engineer at Crivasense technologies – France
- Laxman Nagi Reddy, 2020
- Rafael Lopes Seeger, 2018
- Jolan Barbançon, 2016
- Lamprini Frangou, 2014
- Nicolas Mante, 2011
- Safeer Chenattukuzhniyil aka. C. K. Safeer, 2011
- Marthe Chamfrault, 2010
- MATHEEIAS, ANR-DFG PRCI, 2020-2023
- ASK, PHC France-UK, 2021-2022
- ELSA, CEA exploratoire bottom-up, 2018-2019
- CRG KAUST / SPINTEC / UTEXAS, 2016-2019
- ASTRONICS, ANR JCJC, 2015-2018
- CROCUS Technology, 2012-2015
- Laboratoire IRIG/SYMMES/RICC, S. Gambarelli, Grenoble, France
- Unité mixte CNRS/Thales, R. Lebrun, Paris, France
- Laboratoire national des champs magnétiques intenses LNCMI, Anne-Laure Barra, Grenoble, France
- Laboratoire IRAMIS/SPEC/LNMO, M. Viret, J. B. Moussy, Gif-sur-Yvette, France
- Laboratoire Charles Coulomb L2C, V. Jacques, Montpellier, France
- Centre interdisciplinaire de nanoscience de Marseille CINAM, L. Michez, A. Manchon, France
- TU Dresde / Uni. Constance, S. Goennenwein, H. Reichlova, Germany
- Johannes Gutenberg University JGU, L. Smejkal, J. Sinova, H. Gomonay, Mayence, Germany
- Fritz Haber Institute FHI, T. Kampfrath, Berlin, Germany
- The University of York, R. L. Evans, S. Jenkins, UK
- Catalan Institution for Research ICREA, J. Sort, Barcelona, Spain
- Laboratoire de physique des solides LPS, A. Mougin, Orsay, France
- Laboratoire d’optique et de magnétisme de Bretagne OPTIMAG, D. Spenato, Brest, France
- King Abdullah University of science and technology KAUST, A. Manchon, Thuwal, Saoudi Arabia
- Groupe de physique des matériaux GPM, L. Lechevallier and D. Ledue, Rouen, France
- CROCUS Technology, Grenoble, France
- Independence of the Inverse Spin Hall Effect with the Magnetic Phase in Thin NiCu Films (February 25th, 2021)
Large spin Hall angles have been observed in 3d ferromagnetic materials, but their origin, and especially their link with the ferromagnetic order, remain unclear. Here, we investigated the evolution of the inverse spin Hall Effect ...
- Spin-information transported over long-distances at room temperature in the ultra-low damping hematite antiferromagnet (February 09th, 2021)
A consortium led by physicists at JGU Mainz, in collaboration with CNRS/Thales Palaiseau, SPINTEC and LNCMI Grenoble, and NTNU Trondheim, demonstrated that transporting spin-information at room temperature and over long distances is within reach. They ...
- MATHEEIAS – An ANR-DFG bilateral project (January 12th, 2021)
MATHEEIAS stands for MAgneto-THermo-Electric Effects In Antiferromagnetic Spintronics. It is a 48 months collaborative international project co-funded by the French ANR and the German DFG. The project relies on the following consortium: SPINTEC Grenoble, ...
- Highlights of SPINTEC research in 2020 (December 10th, 2020)
The research highlights of SPINTEC over the year 2020 have been put together, and are available to download: http://www.spintec.fr/spintec-annual-booklets. This booklet contains the key facts of the lab over the period (contracts, new staff etc.), the ...
- seminar – Skew scattering and the spin Hall effect in cooperatively ordering magnetic systems (November 06th, 2020)
On November 16 at 14:00, Timothy Ziman from Institut Laue Langevin Theory Group will give us an on-line seminar entitled : Skew scattering and the spin Hall effect in cooperatively ordering magnetic systems Link to the seminar ...