Fragility of the Fractional Josephson Effect in Time-Reversal-Invariant Topological Superconductors

Knapp, Christina; Chew, Aaron; Alicea, Jason

doi:10.1103/physrevlett.125.207002

Cited by 10 publications

(1 citation statement)

References 77 publications

(75 reference statements)

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“…As mentioned above, however, the braiding process of the Majorana-Kramers pairs may dynamically break the antiunitary symmetry. Such dynamical symmetry breaking gives rise to the local mixing of the Majorana-Kramers pairs Wölms et al (2014Wölms et al ( , 2016, Knapp et al (2020). Gao et al proposed 2020), .…”

Section: Symmetry-protected Non-abelian Anyonsmentioning

confidence: 99%

Non-Abelian Anyons and Non-Abelian Vortices in Topological Superconductors

Yumoto¹,

Mizushima²,

Nitta³

2023

Preprint

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Anyons are particles obeying statistics of neither bosons nor fermions. Non-Abelian anyons, whose exchanges are described by a non-Abelian group acting on a set of wave functions, are attracting a great attention because of possible applications to topological quantum computations. Braiding of non-Abelian anyons corresponds to quantum computations. The simplest non-Abelian anyons are Ising anyons which can be realized by Majorana fermions hosted by vortices or edges of topological superconductors, = 5∕2 quantum Hall states, spin liquids, and dense quark matter. While Ising anyons are insufficient for universal quantum computations, Fibonacci anyons present in = 12∕5 quantum Hall states can be used for universal quantum computations. Yang-Lee anyons are nonunitary counterparts of Fibonacci anyons. Another possibility of non-Abelian anyons (of bosonic origin) is given by vortex anyons, which are constructed from non-Abelian vortices supported by a non-Abelian first homotopy group, relevant for certain nematic liquid crystals, superfluid 3 He, spinor Bose-Einstein condensates, and high density quark matter. Finally, there is a unique system admitting two types of non-Abelian anyons, Majorana fermions (Ising anyons) and non-Abelian vortex anyons. That is 3 2 superfluids (spin-triplet, -wave paring of neutrons), expected to exist in neutron star interiors as the largest topological quantum matter in our universe.

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Section: Symmetry-protected Non-abelian Anyonsmentioning

confidence: 99%