Notice détaillée
Titre
IPHYS-CGCP
Formal Name (French)
Plateforme de Cristallogenèse et Caractérisation
Formal Name (English)
Crystal Growth and Characterization Plateform
Lab Manager
Rønnow, Henrik M.
Group ID
U13873
Auteurs affilié
Beney, Gérald
Bi, Wen Hua
Carlin, Laurence
Liu, Yong
Magrez, Arnaud
Quillet, Arnaud
Roux-Morvant, Melvil Hugo
Trolliet, Yoan
Bi, Wen Hua
Carlin, Laurence
Liu, Yong
Magrez, Arnaud
Quillet, Arnaud
Roux-Morvant, Melvil Hugo
Trolliet, Yoan
Institut
IPHYS
Faculté
SB
Publications
Direct observation of exchange anisotropy in the helimagnetic insulator Cu2OSeO3
Electric field writing and erasing of skyrmions in magnetoelectric Cu2OSeO3 with an ultralow energy barrier
High-Temperature Phase Transitions Preceding the Decomposition of Mixed Valence Aluminum Titanate Pseudobrookite
Imaging the Ultrafast Coherent Control of a Skyrmion Crystal
Ion-Selective Scattering Studied Using the Variable-Energy Electron Irradiation in the Ba0.2K0.8Fe2As2 Superconductor
Light-Induced Metastable Hidden Skyrmion Phase in the Mott Insulator Cu2OSeO3
Self-flux-grown Ba4Fe4ClO9.5-x crystals exhibiting structures with tunable modulation
Synthesis and crystal structure of Fe[SeO4]OH and prediction of polytypes in the extended R[MO4]Z family
Tuning Topological Spin Textures in Size-Tailored Chiral Magnet Insulator Particles
Electric field writing and erasing of skyrmions in magnetoelectric Cu2OSeO3 with an ultralow energy barrier
High-Temperature Phase Transitions Preceding the Decomposition of Mixed Valence Aluminum Titanate Pseudobrookite
Imaging the Ultrafast Coherent Control of a Skyrmion Crystal
Ion-Selective Scattering Studied Using the Variable-Energy Electron Irradiation in the Ba0.2K0.8Fe2As2 Superconductor
Light-Induced Metastable Hidden Skyrmion Phase in the Mott Insulator Cu2OSeO3
Self-flux-grown Ba4Fe4ClO9.5-x crystals exhibiting structures with tunable modulation
Synthesis and crystal structure of Fe[SeO4]OH and prediction of polytypes in the extended R[MO4]Z family
Tuning Topological Spin Textures in Size-Tailored Chiral Magnet Insulator Particles
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