Minisymposium Charge and Spin Transport in Nanostructures

Abstract

AbstractElectronic transport is the basis of many nanotechnology applications. Spin transport and spintronics are used to create better computer memories, whereas basic science and many interesting device applications are being actively pursued. In nanoelectronic devices, the interplay between charge, spin and vibrational degrees of freedom determines their main electronic and transport features. Moreover, the dimensionality and the number of atoms determines the more suitable theoretical framework and numerical techniques for each particular system. In this minisymposium, different models of quantum charge and spin transport in low-dimensional nanostructures were discussed.