WJCMP
 2015
DOI: 10.4236/wjcmp.2015.54030
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High-Frequency Electric Field Induced Nonlinear Electron Transport in Chiral Carbon Nanotubes

S. S. Abukari1,
S. Y. Mensah2,
Rabiu Musah3
et al.

Abstract: We investigate theoretically the high frequency complex conductivity in carbon nanotubes that are stimulated axially by a strong inhomogeneous electric field of the formUsing the kinetic approach based on Boltzmann's transport equation with constant relaxation time approximation and the energy spectrum of the electron in the tight-binding approximation, together with Bhatnagar-Gross-Krook collision integral, we predict high-frequency nonlinear effects along the axial and the circumferential directions of the c… Show more

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Cited by 2 publications
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Possibility of the magnitude of the chiral vector having an effect on the terahertz radiation generation by hot electrons in zigzag carbon nanotubes driven by DC-AC fields

Amekpewu
2024
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Possibility of the magnitude of the chiral vector having an effect on the terahertz radiation generation by hot electrons in zigzag carbon nanotubes driven by DC-AC fields

Amekpewu
2024
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Rectification of extremely short pulses in thin films of chiral nanotubes

Alhousen
1
,
Konobeeva
2
,
Белоненко
3
2023
Mod. Phys. Lett. B
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