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Kondo effect and spin-orbit coupling in graphene quantum dots.

Annika KurzmannYaakov KleeorinChuyao TongRebekka GarreisAngelika KnotheMarius EichChristopher MittagCarolin GoldFolkert Kornelis de VriesKenji WatanabeTakashi TaniguchiVladimir I Fal'koYigal MeirThomas IhnKlaus Ensslin
Published in: Nature communications (2021)
The Kondo effect is a cornerstone in the study of strongly correlated fermions. The coherent exchange coupling of conduction electrons to local magnetic moments gives rise to a Kondo cloud that screens the impurity spin. Here we report on the interplay between spin-orbit interaction and the Kondo effect, that can lead to a underscreened Kondo effects in quantum dots in bilayer graphene. More generally, we introduce a different experimental platform for studying Kondo physics. In contrast to carbon nanotubes, where nanotube chirality determines spin-orbit coupling breaking the SU(4) symmetry of the electronic states relevant for the Kondo effect, we study a planar carbon material where a small spin-orbit coupling of nominally flat graphene is enhanced by zero-point out-of-plane phonons. The resulting two-electron triplet ground state in bilayer graphene dots provides a route to exploring the Kondo effect with a small spin-orbit interaction.
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