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I study the electronic properties of two dimensionnal materials, in particular graphene. I am interested in using this material to build hybrid quantum systems.
A gate-tunable Josephson parametric amplifier.
We use a graphene Josephson junction to fabricate a quantum limited amplifier whose bandwidth is electrically tunable.
Polaritons intercations in a monolayer of MoSe2 .
Due to their peculiar optical properties TMDC show very exciting prospects for the realization of sources of quantum light.
Cathodoluminescence in a van der Waals heterostructure.
Electrons can excite electron-hole pairs in a monolayer of MoS2 when it is embedded in hexagonal boron nitride.
Towards a spin qubit with holes in Silicon.
The gyromagnetic factor of a confined hole in silicon is anisotropic and electric field dependant. This will allow its coherent manipulation with electric fields.
Nonlocal transport in graphene.
Large nonlocal signals are created by both thermal and spin currents in graphene at high magnetic field.
Spin coherence in graphene.
In graphene magnetic defects are found to be the limiting factor for spin relaxation.
Julien Renard
Neel InstituteCNRS-Grenoble
25 avenue des Martyrs,
38042 Grenoble Cedex 09, France
Office: Z219
Tel : (+33) (0)4 56 38 71 76
Mail: julien.renard 'at' neel.cnrs.fr
ORCID: 0000-0003-0883-9276
ReseacherID: C-2319-2009
Google Scholar: Link to my profile
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