Devis Bellucci, Massimo Rontani, Guido Goldoni, Filippo Troiani, Elisa Molinari
Published 2004-05-10Version 1
We investigate theoretically the spin-spin interaction of two-electrons in vertically coupled QDs as a function of the angle between magnetic field and growth axis. Our numerical approach is based on a real-space description of single-particle states in realistic samples and exact diagonalization of carrier-carrier Coulomb interaction. In particular, the effect of the in-plane field component on tunneling and, therefore, spin-spin interaction will be discussed; the singlet-triplet phase diagram as a function of the field strength and direction is drawn.
Comments: Proc. of EP2DS-15, Nara, Japan - 6 pages, 4 figures
Journal: Physica E 22, 482 (2004)
Anisotropic States of Two-Dimensional Electron Systems in High Landau Levels: Effect of an In-Plane Magnetic Field
Transition from insulating to metallic phase induced by in-plane magnetic field in HgTe quantum wells
Semiclassical theory of anisotropic transport at LaAlO3/SrTiO3 interfaces under in-plane magnetic field
