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Colloquium
Metal-Graphene hybrids as a model system for 2D Superconductivity
Wednesday, 20 July 2016, 16:30-18:00
Institute of Nanotechnology Seminar room 0-167
Talk given by
Dr. Vincent Bouchiat
Institut Neel
CNRS-Grenoble
Grenoble, France
Abstract: Graphene provides an ideal 2D gas of Dirac Fermions which is directly exposed to the environment. Therefore it provides an ideal platform on which to tune, via application of an electrostatic gate, the coupling between electronically ordered adsorbates deposited on its surface. This situation is particularly interesting when the network of adsorbates can induce some electronic order within the underlying graphene substrate, such as magnetic or superconducting correlations.[1]
To demonstrate this concept, we have measured transport in graphene decorated with superconducting clusters physisorbed on Graphene capable to induce via the proximity effect a gate-tunable superconducting transition. We have first experimentally studied the case of macroscopic graphene decorated with an array of superconducting tin islands [2], which induce via percolation of proximity effect a global but tunable 2D superconducting state. By adjusting the graphene disorder and its charge carrier density on one side, the geometrical order, cluster size and density of the superconducting dot network on the other side, the superconducting state can exhibit very different behaviors, allowing to test different regimes and quantum phase transition from a granular superconductor to either metallic or insulating states, leading to a bosonic-type gate-controlled quantum phase transition.[3]
I will show recent experimental results involving three sets of triangular arrays sparsely distributed on graphene, in which superconductivity is destroyed for a critical gate value that we attribute to the effect of quantum fluctuations of the phase giving rise to an intermediate metallic state.[4]
References
[1] M. Feigel’man et al. JETP Lett., 88, 747, (2008).
[2] B.M. Kessler, et al., Phys. Rev. Lett 104, 047001 (2010).
[3] Adrien Allain, et al. Nature Materials, 11, 590–594, (2012).
[4] Zheng Han, et al., Nature Physics, 10, 380, (2014).
This event is part of the eventgroup INT Talks
Homepage
https://www.int.kit.edu/events.php
https://www.int.kit.edu/events.php
Speaker
Dr. Vincent Bouchiat
Institut Neel, CNRS Grenoble, France
http://perso.neel.cnrs.fr/vincent.bouchiat/page_personnelle_de_Vincent_Bouchiat/publications.html
Dr. Vincent Bouchiat
Institut Neel, CNRS Grenoble, France
http://perso.neel.cnrs.fr/vincent.bouchiat/page_personnelle_de_Vincent_Bouchiat/publications.html
Organizer
Dr. Igor Gornyi
Institute of Nanotechnology (INT)
Karlsruhe Institute of Technology (KIT)
Eggenstein-Leopoldshafen
Mail: igor gornyi ∂ kit edu
Dr. Igor Gornyi
Institute of Nanotechnology (INT)
Karlsruhe Institute of Technology (KIT)
Eggenstein-Leopoldshafen
Mail: igor gornyi ∂ kit edu
Targetgroup
Interested / Everyone
Interested / Everyone