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Paper detail

Topologically protected, correlated end spin formation in carbon nanotubes

For most chiralities, semiconducting nanotubes display topologically protected end states of multiple degeneracies. We demonstrate using density matrix renormalization group based quantum chemistry tools that the presence of Coulomb interactions induces the formation of robust end spins. These are the close analogues of ferromagnetic edge states emerging in graphene nanoribbons. The interaction between the two ends is sensitive to the length of the nanotube, its dielectric constant, as well as the size of the end spins: for $S=1/2$ end spins their interaction is antiferromagnetic, while for $S>1/2$ it changes from antiferromagnetic to ferromagnetic as the nanotube length increases. The interaction between end spins can be controlled by changing the dielectric constant of the environment, thereby providing a possible platform for two-spin quantum manipulations.

preprint2021arXivOpen access
Cătălin Paşcu MocaWataru IzumidaBalázs DóraÖrs LegezaJános K. AsbóthGergely Zaránd
cond-mat.mes-hallcond-mat.str-el
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Cătălin Paşcu MocaWataru IzumidaBalázs DóraÖrs LegezaJános K. AsbóthGergely Zaránd

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