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Paper detail

Excitons in narrow-gap carbon nanotubes

We calculate the exciton binding energy in single-walled carbon nanotubes with narrow band gaps, accounting for the quasi-relativistic dispersion of electrons and holes. Exact analytical solutions of the quantum relativistic two-body problem are obtain for several limiting cases. We show that the binding energy scales with the band gap, and conclude on the basis of the data available for semiconductor nanotubes that there is no transition to an excitonic insulator in quasi-metallic nanotubes and that their THz applications are feasible.

preprint2011arXivOpen access
R. R. HartmannI. A. ShelykhM. E. Portnoi
cond-mat.mes-hall
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R. R. HartmannI. A. ShelykhM. E. Portnoi

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