Title :
A microscopic quantum model of nanoscale ballistic rectifiers
Author :
Dong, Bing ; Cui, H.L.
Author_Institution :
Dept. of Phys. & Eng. Phys., Stevens Inst. of Technol., Hoboken, NJ, USA
Abstract :
A microscopic model containing a 2×2 quantum-dot array connected to four leads is presented to describe the recent experiments on symmetry-broken mesoscopic semiconductor structure, the triangular antidot, which exhibited rectifying effect in the transverse current-voltage characteristics. It is opposite to the prediction of the linear Landauer-Buttiker formalism and is believed to come from the nonlinear effect. Basing on the non-equilibrium Green´s function technique, we find that the rectifying effect is a consequence of any asymmetry of the quantum-dot array along the transverse direction. This microscopic provides a possible benchmark to study more complicated rectifying properties.
Keywords :
Green´s function methods; ballistic transport; mesoscopic systems; nanotechnology; rectifiers; semiconductor device models; semiconductor quantum dots; linear Landauer Buttiker formalism; mesoscopic semiconductor structure; microscopic quantum model; nanoscale ballistic rectifiers; nonequilibrium Green function; quantum dot array; transverse current voltage characteristics; Electrons; Geometry; Green´s function methods; Lead compounds; Microscopy; Particle scattering; Physics; Quantum dots; Rectifiers; Solid modeling;
Conference_Titel :
Nanotechnology, 2003. IEEE-NANO 2003. 2003 Third IEEE Conference on
Print_ISBN :
0-7803-7976-4
DOI :
10.1109/NANO.2003.1231009
