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Paper detail

Tunable capacitive inter-dot coupling in a bilayer graphene double quantum dot

We report on a double quantum dot which is formed in a width-modulated etched bilayer graphene nanoribbon. A number of lateral graphene gates enable us to tune the quantum dot energy levels and the tunneling barriers of the device over a wide energy range. Charge stability diagrams and in particular individual triple point pairs allow to study the tunable capacitive inter-dot coupling energy as well as the spectrum of the electronic excited states on a number of individual triple points. We extract a mutual capacitive inter-dot coupling in the range of 2 - 6 meV and an inter-dot tunnel coupling on the order of 1.5 μeV.

preprint2011arXivOpen access
Stefan FringesChristian VolkBernat TerrésJan DauberStephan EngelsStefan TrellenkampChristoph Stampfer
cond-mat.mes-hall
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Stefan FringesChristian VolkBernat TerrésJan DauberStephan EngelsStefan TrellenkampChristoph Stampfer

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