Toshimasa Fujisawa, David Guy Austing, Yasuhiro Tokura, Yoshiro Hirayama, Seigo Tarucha
Published 2002-04-15Version 1
We investigate non-equilibrium transport in the absence of spin-flip energy relaxation in a few-electron quantum dot artificial atom. Novel non-equilibrium tunneling processes involving high-spin states which cannot be excited from the ground state because of spin-blockade, and other processes involving more than two charge states are observed. These processes cannot be explained by orthodox Coulomb blockade theory. The absence of effective spin relaxation induces considerable fluctuation of the spin, charge, and total energy of the quantum dot. Although these features are revealed clearly by pulse excitation measurements, they are also observed in conventional dc current characteristics of quantum dots.
Comments: accepted for publication in Phys. Rev.Lett
Sequential magnetotunneling in a vertical Quantum Dot tuned at the crossing to higher spin states
Spin and orbital fluctuations in non-equilibrium transport through quantum dots: A renormalisation-group analysis
Effects of electron-phonon interaction on non-equilibrium transport through single-molecule transistor
