In this study, we derive analytically Green’s function (GF) formalism to calculate the electrical conductance for an armchair SWCNT in the ballistic regime. We obtain an exact analytical formula for the conductance of the SWCNT, in the tight-binding approach and assuming nearest-neighbor interaction by recursion process in the GF formalism. We show that in the presence of uniform external potential, the number of conductance channels and resonance energy range of the system decrease.
Mardaani,T. and Mardaani,M. (2019). Electrical conductance in a single wall carbon nanotube (SWCNT): tight binding model. Iranian Journal of Physics Research, 9(4), 295-298.
MLA
Mardaani,T. , and Mardaani,M. . "Electrical conductance in a single wall carbon nanotube (SWCNT): tight binding model", Iranian Journal of Physics Research, 9, 4, 2019, 295-298.
HARVARD
Mardaani T., Mardaani M. (2019). 'Electrical conductance in a single wall carbon nanotube (SWCNT): tight binding model', Iranian Journal of Physics Research, 9(4), pp. 295-298.
CHICAGO
T. Mardaani and M. Mardaani, "Electrical conductance in a single wall carbon nanotube (SWCNT): tight binding model," Iranian Journal of Physics Research, 9 4 (2019): 295-298,
VANCOUVER
Mardaani T., Mardaani M. Electrical conductance in a single wall carbon nanotube (SWCNT): tight binding model. Dear user; Recently we have changed our software to Sinaweb. If you had already registered with the old site, you may use the same USERNAME but you need to change your password. To do so at the first use, please choose, 2019; 9(4): 295-298.
