S. Y. Mensah, S. S. Abukari, N. G. Mensah, K. A. Dompreh, A. Twum, F. K. A. Allotey
Published 2010-02-17Version 1
With the use of the semiclassical Boltzmann equation we have calculated a direct current (d.c) in undoped zigzag carbon nanotube (CN) by mixing two coherent electromagnetic waves with commensurate frequencies i.e and . This effect is attributed to the nonparabolicity of the electron energy band which is very strong in carbon nanotubes. We observed that the current is negative similar to that observed in superlattice. However if the phase shift lies between and there is an inversion and the current becomes positive. It is interesting to note that exhibit negative differential conductivity as expected for d.c through carbon nanotubes. This method can be used to generate terahertz radiation in carbon nanotubes. It can also be used in determining the relaxation time of electrons in carbon nanotubes
Comments: 12pages,5figures
Generation and stability of dynamical skyrmions and droplet solitons
Dynamical motion and generation of Majorana fermions in the bulk
Generation of Terahertz Radiation by Wave Mixing in Armchair Carbon Nanotubes
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