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Abstract We investigate the quantum transport properties in one mesoscopic circuit which is embedded by a fractional Josephson junction. The calculation results show that the quantum interference takes nontrivial effects… Click to show full abstract
Abstract We investigate the quantum transport properties in one mesoscopic circuit which is embedded by a fractional Josephson junction. The calculation results show that the quantum interference takes nontrivial effects to the quantum transport through this system. This is manifested as the contributions of the superconducting phase difference and the coupling manners between the Majorana zero modes and leads to the conductance and Fano factor, respectively. The results in this work provide helpful information for understanding the transport behavior assisted by Majorana zero modes.
Journal Title: Solid State Communications
Year Published: 2017
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