Carbon nanotube array as a van der Waals two-dimensional hyperbolic material

R. G. Polozkov; N. Y. Senkevich; S. Morina; P. Kuzhir; M. E. Portnoi; I. A. Shelykh

doi:10.1103/PhysRevB.100.235401

Carbon nanotube array as a van der Waals two-dimensional hyperbolic material

R. G. Polozkov^*, N. Y. Senkevich, S. Morina, P. Kuzhir, M. E. Portnoi, I. A. Shelykh

^*Corresponding author for this work

Faculty of Physical Sciences

Research output: Contribution to journal › Article › peer-review

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Abstract

We use an ab initio approach to design and study a two-dimensional material-a planar array of carbon nanotubes separated by an optimal distance defined by the van der Waals interaction. We show that the energy spectrum for an array of quasimetallic nanotubes is described by a strongly anisotropic hyperbolic dispersion and formulate a model low-energy Hamiltonian for its semianalytical treatment. Periodic-potential-induced lifting of the valley degeneracy for an array of zigzag narrow-gap nanotubes leads to the band-gap collapse. In contrast, the band gap is opened in an array of gapless armchair tubes. These unusual spectra, marked by pronounced van Hove singularities in the low-energy density of states, open the opportunity for interesting physical effects and prospective optoelectronic applications.

Original language	English
Article number	235401
Journal	Physical Review B
Volume	100
Issue number	23
DOIs	https://doi.org/10.1103/PhysRevB.100.235401
Publication status	Published - 2 Dec 2019

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© 2019 American Physical Society.

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abstract = "We use an ab initio approach to design and study a two-dimensional material-a planar array of carbon nanotubes separated by an optimal distance defined by the van der Waals interaction. We show that the energy spectrum for an array of quasimetallic nanotubes is described by a strongly anisotropic hyperbolic dispersion and formulate a model low-energy Hamiltonian for its semianalytical treatment. Periodic-potential-induced lifting of the valley degeneracy for an array of zigzag narrow-gap nanotubes leads to the band-gap collapse. In contrast, the band gap is opened in an array of gapless armchair tubes. These unusual spectra, marked by pronounced van Hove singularities in the low-energy density of states, open the opportunity for interesting physical effects and prospective optoelectronic applications.",

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AU - Polozkov, R. G.

AU - Senkevich, N. Y.

AU - Morina, S.

AU - Kuzhir, P.

AU - Portnoi, M. E.

AU - Shelykh, I. A.

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AB - We use an ab initio approach to design and study a two-dimensional material-a planar array of carbon nanotubes separated by an optimal distance defined by the van der Waals interaction. We show that the energy spectrum for an array of quasimetallic nanotubes is described by a strongly anisotropic hyperbolic dispersion and formulate a model low-energy Hamiltonian for its semianalytical treatment. Periodic-potential-induced lifting of the valley degeneracy for an array of zigzag narrow-gap nanotubes leads to the band-gap collapse. In contrast, the band gap is opened in an array of gapless armchair tubes. These unusual spectra, marked by pronounced van Hove singularities in the low-energy density of states, open the opportunity for interesting physical effects and prospective optoelectronic applications.

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Carbon nanotube array as a van der Waals two-dimensional hyperbolic material

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