François Crépin, Björn Trauzettel
Published 2013-05-31Version 1
We study the properties of a topological Josephson junction made of both edges of a 2D topological insulator. We show that, due to fermion parity pumping across the bulk, the global parity of the junction has a clear signature in the periodicity and critical value of the Josephson current. In particular, we find that the periodicity with the flux changes from $4\pi$ in a junction with an even number of quasi-particles to $2\pi$ in the odd sector. In the case of long junctions, we exhibit a rigorous mathematical connection between the spectrum of Andreev bound-states and the fermion parity anomaly, through bosonization. Additionally, we discuss the rather quantitative effects of Coulomb interactions on the Josephson current.
Comments: 4 and half pages, 2 figures
Journal: Phys. Rev. Lett. 112, 077002 (2014)
Quench Dynamics of Josephson Current in a Topological Josephson Junction
Control of Josephson current by Aharonov-Casher Phase in a Rashba Ring
Tunneling between edge states of a 2D topological insulator and a Fermi liquid lead through a quantum dot
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