posted on 2013-11-08, 00:00authored byTankut Can, Hui Dai, Dirk K. Morr
Using the nonequilibrium Keldysh Green’s function formalism, we show that the nonequilibrium charge
transport in nanoscopic quantum networks takes place via current eigenmodes that possess characteristic spatial
patterns.We identify the microscopic relation between the current patterns and the network’s electronic structure
and topology and demonstrate that these patterns can be selected via gating or constrictions, providing new
venues for manipulating charge transport at the nanoscale. Finally, decreasing the dephasing time leads to a
smooth evolution of the current patterns from those of a ballistic quantum network to those of a classical resistor
network.