Periodic spin polarization of small quantum dots

An array of elongated quantum dots (quantum dashes) can self polarize into an antiferroelectric state. In contrast to the conventional antiferroelectricity, this spontaneous polarization does not require any ionic displacements for its establishment. We present the main arguments and proofs of this

We present measurements of electronic spin relaxation and manipulation in n-doped semiconductor quantum dots. A luminescence based nonresonant pump-probe method has been developed to determine the degree of spin polarization of electrons conÿned in the dots. We observe an electronic spin memory e ec

We discuss results of spin density functional calculations for lateral GaAs -AZGaAs quantum dots in the regime of electron number N N 100. We present typical results showing the evolution of the total dot polarization as a gate voltage Vg is swept and the electron number increases. We show that occ

## Abstract Resonant electronic transport through two coupled non‐interacting single‐level quantum dots attached to ferromagnetic leads with collinear magnetizations is analyzed theoretically. Coupling of the dots to external leads as well as the inter‐dot coupling are assumed to be spin dependent.