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Paper detail

Electrostatic detection of Shubnikov-de-Haas oscillations in bilayer graphene by Coulomb resonances in gate-defined quantum dots

A gate-defined quantum dot in bilayer graphene is utilized as a sensitive electrometer for probing the charge density of its environment. Under the influence of a perpendicular magnetic field, the charge carrier density of the channel region next to the quantum dot oscillates due to the formation of Landau levels. This is experimentally observed as oscillations in the gate-voltage positions of the Coulomb resonances of the nearby quantum dot. From the frequency of the oscillations, we extract the charge carrier density in the channel and from the amplitude the shift of the quantum dot potential. We compare these experimental results with an electrostatic simulation of the device and find good agreement.

preprint2020arXivOpen access
Luca BanszerusThomas FabianSamuel MöllerEike IckingHenning HeimingStefan TrellenkampFlorian LentzDaniel NeumaierMartin OttoKenji WatanabeTakashi TaniguchiFlorian LibischChristian VolkChristoph Stampfer
cond-mat.mes-hall
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Luca BanszerusThomas FabianSamuel MöllerEike IckingHenning HeimingStefan TrellenkampFlorian LentzDaniel NeumaierMartin OttoKenji WatanabeTakashi TaniguchiFlorian LibischChristian VolkChristoph Stampfer

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