D
Dominique Mailly
Researcher at Université Paris-Saclay
Publications - 255
Citations - 9710
Dominique Mailly is an academic researcher from Université Paris-Saclay. The author has contributed to research in topics: Magnetic field & Quantum Hall effect. The author has an hindex of 47, co-authored 251 publications receiving 9153 citations. Previous affiliations of Dominique Mailly include University of Paris-Sud & Centre national de la recherche scientifique.
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Experimental observation of persistent currents in GaAs-AlGaAs single loop.
TL;DR: A dedicated device with an integrated DC-SQUID has been developed to detect the presence of persistent currents of about 4 nA in a mesoscopic single loop etched in a GaAs-GaAlAs heterojunction.
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Experimental Evidence of the Néel-Brown Model of Magnetization Reversal
Wolfgang Wernsdorfer,E. Bonet Orozco,Klaus Hasselbach,Alain Benoit,Bernard Barbara,N. Demoncy,A. Loiseau,H. Pascard,Dominique Mailly +8 more
TL;DR: In this article, the first magnetization measurements of individual ferromagnetic nanoparticles (15-30 nm) at very low temperatures (0.1-6 K) were presented.
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Switching of magnetization by nonlinear resonance studied in single nanoparticles.
TL;DR: A constant applied field, well below the switching field, combined with a radio-frequency field pulse can reverse the magnetization of a nanoparticle.
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Magnetic Anisotropy of a Single Cobalt Nanocluster
Matthieu Jamet,Wolfgang Wernsdorfer,C. Thirion,Dominique Mailly,Véronique Dupuis,Patrice Mélinon,Alain Perez +6 more
TL;DR: Three-dimensional switching field measurements performed on a 3 nm cobalt cluster embedded in a niobium matrix are reported, able to separate the different magnetic anisotropy contributions and evidence the dominating role of the cluster surface.
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Nucleation of Magnetization Reversal in Individual Nanosized Nickel Wires.
Wolfgang Wernsdorfer,Bernard Doudin,Dominique Mailly,Klaus Hasselbach,Alain Benoit,J. Meier,Jean-Philippe Ansermet,Bernard Barbara +7 more
TL;DR: This work reports the first study of isolated nanoscale wires with diameters smaller than 100 nm, for which singledomain states could be expected, and obtained unique insight into the process of magnetization reversal by measuring histograms of the switching field as a function of the orientation of the wires in the applied field, their diameter, and the temperature.