2013
DOI: 10.1103/physrevb.87.104513
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Majorana fermions and odd-frequency Cooper pairs in a normal-metal nanowire proximity-coupled to a topological superconductor

Abstract: We discuss a strong relationship between Majorana fermions and odd-frequency Cooper pairs which appear at a disordered normal (N) nanowire attached to a topologically nontrivial superconducting (S) one. The transport properties in superconducting nanowire junctions show universal behaviors irrespective of the degree of disorder: the quantized zero-bias differential conductance at 2e 2 /h in NS junction and the fractional current-phase (J -ϕ) relationship of the Josephson effect in SNS junction J ∝ sin(ϕ/2). Su… Show more

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Cited by 144 publications
(173 citation statements)
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“…−ikr e −r/ξ0 Note, that this expression is consistent with the result found by Tanaka and Asano in a semiconductor/superconductor device [130]. In their case, an additional magnetic field is applied through which only the spin up part survives of Eq.…”
Section: Around E =supporting
confidence: 90%
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“…−ikr e −r/ξ0 Note, that this expression is consistent with the result found by Tanaka and Asano in a semiconductor/superconductor device [130]. In their case, an additional magnetic field is applied through which only the spin up part survives of Eq.…”
Section: Around E =supporting
confidence: 90%
“…However, in this case, we have a full oddfrequency state at zero energy. Therefore the conclusion of Asano and Tanaka [130] holds that in these devices pure odd-frequency Cooper pairs and the Majorana zero-energy mode are one and the same thing.…”
Section: E =mentioning
confidence: 93%
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“…Notably, there are no zero-energy or subgap states, otherwise often associated with oddfrequency pairing. 43,48,49,[56][57][58][59] Recent works have pointed out that zero-energy states do not always accompany odd-frequency pairing, 41,54,60,61 and odd-frequency, oddinterband pairing provides another example when this happens.…”
mentioning
confidence: 99%