AC transport properties of metallic carbon nanotubes with a single atomic vacancy were investigated using the Keldysh nonequilibrium Green's function method. It was found that the susceptance depended upon the position of the vacancy, which was in sharp contrast to the position-independence of the DC conductance. In addition, the susceptance indicates an inductive response in spite of the small DC conductance, when the distance between the center of the nanotube and the vacancy was larger than a certain threshold. The position dependence of the susceptance can be understood as a consequence of the breaking of parity symmetry.

Theoretical Analysis of AC Transport in Carbon Nanotubes with a Single Atomic Vacancy: Sharp Contrast between DC and AC Responses in Vacancy Position Dependence. D.Hirai, T.Yamamoto, S.Watanabe: Applied Physics Express, 2011, 4[7], 075103