Stark-cyclotron Resonance in an Array of Carbon Nanotubes

S. S. Abukari; S. Y. Mensah; R. Musah; N. G. Mensah; K. A. Dompreh

arXiv:1506.00521·cond-mat.mes-hall·June 2, 2015

Stark-cyclotron Resonance in an Array of Carbon Nanotubes

S. S. Abukari, S. Y. Mensah, R. Musah, N. G. Mensah, K. A. Dompreh

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TL;DR

This paper theoretically investigates Stark-cyclotron resonance in carbon nanotube arrays using a kinetic model, deriving an exact current density expression and identifying resonance conditions when Larmor and Stark frequencies coincide.

Contribution

It provides a new theoretical framework and exact expression for current density in carbon nanotube arrays under Stark-cyclotron resonance conditions.

Findings

01

Resonance occurs when Larmor and Stark frequencies coincide.

02

Exact current density expression derived for the system.

03

Theoretical prediction of resonance conditions in CN arrays.

Abstract

Using the kinetic approach based on the semiclassical Boltzmann transport equation with constant relaxation time, we theoretically studied the Stark-cyclotron resonance in an array of Carbon Nanotubes (CNs). Exact expression for the current density was obtained. We noted that Stark-cyclotron resonance occurs when the Larmor frequency coincides with the Stark frequency. A coincidence of these frequencies produce resonance.

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Taxonomy

TopicsCarbon Nanotubes in Composites · Mechanical and Optical Resonators · Nanopore and Nanochannel Transport Studies