Response time of a normal-superconductor hybrid system under the step-like pulse bias
Abstract
The response of a quantum dot coupled with one normal lead and a superconductor lead driven by a step-like pulse bias VL is studied using the non-equilibrium Green function method. In the linear pulse bias regime, the responses of the upwards and downwards bias are symmetric. In this regime the turn-on time and turn-off time are much slower than that of the normal system due to the Andreev reflection. On the other hand, for the large pulse bias VL, the instantaneous current exhibits oscillatory behaviors with the frequency =qVL. The turn on/off times are in (or shorter than) the scale of 1/VL, so they are faster for the larger bias VL. In addition, the responses for the upwards and downwards bias are asymmetric at large VL. The turn-on time is larger than the turn-off time but the relaxation time note1 depends only on the coupling strength and it is much smaller than the turn-on/off times for the large bias VL.
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