University of Cape Coast Institutional Repository

Browsing Department of Physics by Author "Amekpewu, Matthew"

Browsing Department of Physics by Author "Amekpewu, Matthew"

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  • Domain suppression in the negative differential conductivity region of carbon nanotubes by applied ac electric field 
    Abukari, Sulemana S.; Mensah, Samuel Y.; Adu, Kofi W.; Mensah, Natalia G.; Dompreh, Kwadwo A.; Twum, Anthony; Amuah, Chales L. Y.; Amekpewu, Matthew; Rabiu, Musah (University of Cape Coast, 2012)
    We study theoretically the electron transport properties in achiral carbon nanotubes under the influence of an external electric field E(t) using Boltzmann’s transport equation to derive the current-density. A negative ...
  • External electric field effect on electrons transport in carbon canotubes 
    Abukari, Sulemana S.; Mensah, Samuel Y.; Rabiu, Musah; Adu, Kofi W.; Mensah, Natalia G.; Dompreh, Kwadwo A.; Twum, Anthony; Amekpewu, Matthew (University of Cape Coast, 2013)
    We consider a simple model of carbon nanotubes (CNTs) subject to external electric field E(t). Using a tight-binding approximation for the description of energy bands of CNTs, together with the standard Boltzmann transport ...
  • Generation and propagation of ultrasonic waves in piezoelectric graphene nanoribbon 
    Rabiu, Musah; Mensah, Samuel Y.; Abukari, Sulemana S.; Amekpewu, Matthew; Sefa-Ntiri, Baah; Twum, Anthony (University of Cape Coast, 2013)
    Generation and propagation of ultrasonic waves in single layer Graphene Nanoribbon is studied using semi-classical approach. When piezoelectric Graphene Nanoribbon (GNR) is exposed to time varying light beam, ultrasonic ...
  • High-Frequency Electric Field Induced Nonlinear Electron Transport in Chiral Carbon Nanotubes 
    Abukari, Sulemana S.; Mensah, Samuel Y.; Rabiu, Musah; Adu, Kofi W.; Mensah, Natalia G.; Twum, Anthony; Owusu, Alfred; Dompreh, Kwadwo A.; Mensah-Amoah, Patrick; Amekpewu, Matthew (University of Cape Coast, 2015-11-24)
    We investigate theoretically the high frequency complex conductivity in carbon nanotubes that are stimulated axially by a strong inhomogeneous electric field of the form Et t ) . Using the kinetic approach based on ...

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