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Paper detail

Graphene single electron transistor as a spin sensor for magnetic adsorbates

We study single electron transport through a graphene quantum dot with magnetic adsorbates. We focus on the relation between the spin order of the adsorbates and the linear conductance of the device. The electronic structure of the graphene dot with magnetic adsorbates is modeled through numerical diagonalization of a tight-binding model with an exchange potential. We consider several mechanisms by which the adsorbate magnetic state can influence transport in a single electron transistor: by tuning the addition energy, by changing the tunneling rate and, in the case of spin polarized electrodes, through magnetoresistive effects. Whereas the first mechanism is always present, the others require that the electrode has either an energy or spin dependent density of states. We find that graphene dots are optimal systems to detect the spin state of a few magnetic centers.

preprint2013arXivOpen access
J. W. GonzálezF. DelgadoJ. Fernández-Rossier
cond-mat.mes-hall
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J. W. GonzálezF. DelgadoJ. Fernández-Rossier

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