Equipe: Nanostructures: growth, quantum effects and magnetism
Growth and properties of hybrid thin film systems – Internships and Jobs
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Growth and properties of hybrid thin film systems – MBE growth of acousto-optic microcavities
Team Permanent member: Paola Atkinson In collaboration with the “Acoustics for nanoscience” team, we are fabricating GaAs/AlAs superlattice microcavities for optomechanical applications. The GaAs/AlAs material system is particularly attractive due to the fact...
Growth and properties of hybrid thin film systems – MBE growth of 2D systems and topological insulators
Team Permanent members: Mahmoud Eddrief, Paola Atkinson, Jean-Eudes Duvauchelle, Franck Vidal, Masimiliano Marangolo Using molecular beam epitaxy systems dedicated to the growth of selenide or arsenide materials respectively, we are interested in the growth...
Growth and properties of hybrid thin film systems – MBE growth of quantum dot devices
Team Permanent member: Paola Atkinson Post-doc: Kimon Moratis Self-assembled quantum dots, which are clusters of tens of thousands of atoms embedded in a larger bandgap material, are attractive building blocks for quantum technologies...
Growth and properties of hybrid thin film systems – Thin films and magnetic heterostructures
Team Permanent members: Yunlin Zheng, Franck Vidal, Marcel Hennes, Dominique Demaille PhD students: Carlos Cortéz, Moundji Hemili (iMAT scholarship, co-supervision LCPMR) Increasing the information density of magnetic storage media requires to look for new...
Growth and properties of hybrid thin film systems – Effects of magnetic anisotropy on the dynamical properties of epitaxial thin films
Team Permanent members: Dominique Demaille, Jean-Eudes. Duvauchelle, Mahmoud Eddrief, Massimiliano Marangolo, Mauricio Sacchi, Franck Vidal, Yunlin Zheng Recent thesis : Mariana Barturen, Carolyna Hepburn, Louis-Charles. Garnier Magnetic anisotropy manifests itself in preferential orientations of...
