Influence of Charge and Energy Imbalances on the Tunneling Current through a Superconductor-Normal Metal Junction
Abstract
We consider quasiparticle charge and energy imbalances in a thin superconductor weakly coupled with two normal-metal electrodes via tunnel junctions at low temperatures. Charge and energy imbalances, which can be created by injecting quasiparticles at one junction, induce excess tunneling current I ex at the other junction. We numerically obtain I ex as a function of the bias voltage V det across the detection junction. We show that I ex at the zero bias voltage is purely determined by the charge imbalance, while the energy imbalance causes a nontrivial V det-dependence of I ex. The obtained voltage-current characteristics qualitatively agree with the experimental result by R. Yagi [Phys. Rev. B 73 (2006) 134507].
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