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seminar – Surface-Acoustic-Wave Induced Ferromagnetic Resonance and possible magnonic applications(September 20th, 2023)
On Tuesday November 07th 2023, we have the pleasure to welcome in SPINTEC Massimiliano Marangolo from Sorbonne Université. He will give us a seminar at 11:00 entitled : Surface-Acoustic-Wave Induced Ferromagnetic Resonance and possible magnonic applications. Place : IRIG/SPINTEC, auditorium 445 CEA Building 10.05 (access to CEA (*)) skype link : https://webconf.cea.fr/ioan-lucian.prejbeanu/C89D5FFJ If the […]
Read morePhD Defense – Molecular beam epitaxy of van der Waals heterostructures based on ferromagnetic Cr2Te3 for spintronics()
On Monday November 06th, at 14:00, Quentin Guillet (SPINTEC) will defend his PhD thesis entitled : Molecular beam epitaxy of van der Waals heterostructures based on ferromagnetic Cr2Te3 for spintronics Place : IRIG/SPINTEC, CEA Building 10.05, auditorium 445 (access needs authorization *) skype link : https://webconf.cea.fr/ioan-lucian.prejbeanu/C89D5FFJ If the link does not work, try with […]
Read morePost-doctoral position – Superconductor / antiferro- and alter-magnet hybrids – experimental (M/W)(September 19th, 2023)
Subject and context : The aim of the project is to identify novel mechanisms to fully exploit specificities of d-wave superconductivity for ultrafast dynamic coupling with magnetism. The expected result is to open up prospects for non-dissipative spin transport over long distances, protected by superconducting coherence. Interface engineering and the DOS anisotropy of some high-Tc […]
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Epitaxial van der Waals heterostructures of Cr2Te3 on 2D material(August 1st, 2023)
For the future integration of 2D materials in spintronic devices (sensors, memories…), the ability to grow van der Waals (vdW) heterostructures combining 2D magnets, high mobility, high spin-orbit coupling (SOC) or topological materials on large areas constitutes a real challenge today. Here, by using molecular beam epitaxy in the van der Waals regime, we could […]
Read moreNon-volatile electric control of spin-orbit torques in an electron gas()
Spin-orbit torques (SOTs) have the potential to manipulate magnetization using in-plane current, and two-dimensional electron gases (2DEGs) provide a highly efficient spin-to-charge current interconversion. This paper reports the non-volatile electric-field control of SOTs in an oxide-based Rashba-Edelstein 2DEG. We recently reported a significant progress in the path towards a next generation of memory devices […]
Read moreReview – From Early Theories of Dzyaloshinskii–Moriya Interactions in Metallic Systems to Today’s Novel Roads(June 9th, 2023)
Albert Fert, Mairbek Chshiev, André Thiaville and Hongxin Yang, J. Phys. Soc. Jpn. 92, 081001 (2023). In this Review article, the authors briefly introduce the research history of DMI and its significance in the field of modern spintronics. Since the early 1960’s, the discovery of Dzyaloshinskii–Moriya interaction (DMI) helped to explain the physical mechanisms […]
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RECENT UPDATES
- seminar – Surface-Acoustic-Wave Induced Ferromagnetic Resonance and possible magnonic applications 20 September 2023
- PhD Defense – Molecular beam epitaxy of van der Waals heterostructures based on ferromagnetic Cr2Te3 for spintronics 20 September 2023
- Post-doctoral position – Superconductor / antiferro- and alter-magnet hybrids – experimental (M/W) 19 September 2023
- seminar – two seminars on magnetoresistive sensors and magnetic tunnel junctions 18 September 2023
- PhD Defense – Fundamentals of ultrascaled 3D magnetic tunnel junctions and integration routes for high density memory array 12 September 2023
