We describe a method to probe the quantum phase transition between the short-range topological phase and the long-range topological phase in the superconducting Kitaev chain with long-range pairing, both exhibiting subgap modes localized at the edges. The method relies on the effects of the finite mass of the subgap edge modes in the long-range regime (which survives in the thermodynamic limit) on the single-particle scattering coefficients through the chain connected to two normal leads. Specifically, we show that, when the leads are biased at a voltage V with respect to the superconducting chain, the Fano factor is either zero (in the short-range correlated phase) or 2e (in the long-range correlated phase). As a result, we find that the Fano factor works as a directly measurable quantity to probe the quantum phase transition between the two phases. In addition, we note a remarkable "critical fractionalization effect" in the Fano factor, which is exactly equal to e along the quantum critical line. Finally, we note that a dual implementation of our proposed device makes it suitable as a generator of large-distance entangled two-particle states.

Current transport properties and phase diagram of a Kitaev chain with long-range pairing / Giuliano, Domenico; Paganelli, Simone; Lepori, Luca. - In: PHYSICAL REVIEW. B. - ISSN 2469-9950. - 97:15(2018). [10.1103/PhysRevB.97.155113]

Current transport properties and phase diagram of a Kitaev chain with long-range pairing

Lepori, Luca
2018-01-01

Abstract

We describe a method to probe the quantum phase transition between the short-range topological phase and the long-range topological phase in the superconducting Kitaev chain with long-range pairing, both exhibiting subgap modes localized at the edges. The method relies on the effects of the finite mass of the subgap edge modes in the long-range regime (which survives in the thermodynamic limit) on the single-particle scattering coefficients through the chain connected to two normal leads. Specifically, we show that, when the leads are biased at a voltage V with respect to the superconducting chain, the Fano factor is either zero (in the short-range correlated phase) or 2e (in the long-range correlated phase). As a result, we find that the Fano factor works as a directly measurable quantity to probe the quantum phase transition between the two phases. In addition, we note a remarkable "critical fractionalization effect" in the Fano factor, which is exactly equal to e along the quantum critical line. Finally, we note that a dual implementation of our proposed device makes it suitable as a generator of large-distance entangled two-particle states.
2018
Current transport properties and phase diagram of a Kitaev chain with long-range pairing / Giuliano, Domenico; Paganelli, Simone; Lepori, Luca. - In: PHYSICAL REVIEW. B. - ISSN 2469-9950. - 97:15(2018). [10.1103/PhysRevB.97.155113]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11381/2939499
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