Quantum transmission spectra of a twisted electron waveguide expose the coupling between traveling and quasibound states. Through a direct numerical solution of the open-boundary Schrödinger equation, we single out the effects of the twist and show how the presence of a localized state leads to a Breit-Wigner or a Fano resonance in the transmission. We also find that the energy of quasibound states is increased by the twist, despite the constant section area along the waveguide. While the mixing of different transmission channels is expected to reduce the conductance, the shift of localized levels into the traveling-states energy range can reduce their detrimental effects on coherent transport.
Effect of quasibound states on coherent electron transport in twisted nanowires
Andrea Bertoni;
2011
Abstract
Quantum transmission spectra of a twisted electron waveguide expose the coupling between traveling and quasibound states. Through a direct numerical solution of the open-boundary Schrödinger equation, we single out the effects of the twist and show how the presence of a localized state leads to a Breit-Wigner or a Fano resonance in the transmission. We also find that the energy of quasibound states is increased by the twist, despite the constant section area along the waveguide. While the mixing of different transmission channels is expected to reduce the conductance, the shift of localized levels into the traveling-states energy range can reduce their detrimental effects on coherent transport.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
