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Paper detail

Topological Phase Transition in Metallic Single-Wall Carbon Nanotube

The topological phase transition is theoretically studied in a metallic single-wall carbon nanotube (SWNT) by applying a magnetic field $B$ parallel to the tube. The $\mathbb{Z}$ topological invariant, winding number, is changed discontinuously when a small band gap is closed at a critical value of $B$, which can be observed as a change in the number of edge states owing to the bulk-edge correspondence. This is confirmed by numerical calculations for finite SWNTs of $\sim$ 1 $μ$m length, using a one-dimensional lattice model to effectively describe the mixing between $σ$ and $π$ orbitals and spin-orbit interaction, which are relevant to the formation of the band gap in metallic SWNTs.

preprint2016arXivOpen access
Rin OkuyamaWataru IzumidaMikio Eto
cond-mat.mes-hallcond-mat.mtrl-sci
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Rin OkuyamaWataru IzumidaMikio Eto

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