Anisotropic Josephson couplings in triplet superconductor networks produce frustrated d-vector textures that trap nonintegral flux, including pi-flux above a critical antisymmetric coupling strength.
Reports on Progress in Physics , abstract =
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Numerical study demonstrates controlled transport of Z4 parafermion edge states in a ladder model and quantifies the adiabatic speed limit under realistic conditions.
A microscopic model of an SSH-superconductor junction finds stable quasiparticle states inside the gap for bulk superconductors but finite temperature-dependent lifetimes from phase fluctuations in lower-dimensional superconductors.
citing papers explorer
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Nonintegral Flux Trapping in Frustrated Josephson Networks of Triplet Superconductors
Anisotropic Josephson couplings in triplet superconductor networks produce frustrated d-vector textures that trap nonintegral flux, including pi-flux above a critical antisymmetric coupling strength.
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Shuttling of $\mathbb{Z}_4$ parafermions in an electronic ladder model
Numerical study demonstrates controlled transport of Z4 parafermion edge states in a ladder model and quantifies the adiabatic speed limit under realistic conditions.
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Superconducting Proximity Effect in an SSH-Superconductor Junction
A microscopic model of an SSH-superconductor junction finds stable quasiparticle states inside the gap for bulk superconductors but finite temperature-dependent lifetimes from phase fluctuations in lower-dimensional superconductors.