Parametric pumping at finite frequency
arXiv:cond-mat/0107078 · doi:10.1103/PhysRevB.65.073306
Abstract
We report on a first principles theory for analyzing the parametric electron pump at a finite frequency. The pump is controlled by two pumping parameters with phase difference $Ï$. In the zero frequency limit, our theory predicts the well known result that the pumped current is proportional to $\sinÏ$. For the more general situation of a finite frequency, our theory predicts a non-vanishing pumped current even when the two driving forces are in phase, in agreement with the recent experimental results. We present the physical mechanism behind the nonzero pumped current at $Ï=0$, which we found to be due to photon-assisted processes.