Title :
Spin-related transport and interference based on the Rashba spin-orbit interaction
Author :
Nitta, Junsaku ; Koga, Takaaki ; Sekine, Yoshiaki
Author_Institution :
NTT Corp., NTT Basic Res. Labs., Kanagawa, Japan
Abstract :
The Rashba spin-orbit interaction in InGaAs quantum wells (QW) is studied using the weak anti-localization analysis as a function of the structural inversion asymmetry (STA). A clear cross-over from positive to negative magnetoresistance near zero-magnetic field is observed by controlling the degree of the SIA in the QWs. This is a strong evidence of a zero-field spin splitting that is induced by the Rashba effect. The spin interference effect in a gate controlled mesoscopic loop structure is studied in the presence of the Rashba spin-orbit interaction. The oscillatory behaviors as a function of the gate voltage can be attributed to the spin interference effect. This result shows that the spin precession can be controlled by the gate voltage.
Keywords :
III-V semiconductors; gallium arsenide; hyperfine structure; indium compounds; magnetoresistance; semiconductor quantum wells; spin-orbit interactions; weak localisation; InGaAs; InGaAs quantum wells; Rashba spin-orbit interaction; magnetoresistance; mesoscopic loop structure; spin interference effect; spin precession; structural inversion asymmetry; weak antilocalization analysis; zero-field spin splitting; zero-magnetic field; Electrical resistance measurement; Indium gallium arsenide; Insulation; Interference; Laboratories; Magnetic analysis; Magnetic field measurement; Magnetoelectronics; Magnetoresistance; Voltage control;
Conference_Titel :
Nanotechnology, 2005. 5th IEEE Conference on
Print_ISBN :
0-7803-9199-3
DOI :
10.1109/NANO.2005.1500678
