Fermi seas with the same Euler characteristic χ_F possess distinct fine-grained topological structures captured by a new structural resolution factor, which topological superconductors inherit to produce anomalous gapless boundary states.
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Coupled quasiperiodic Kitaev chains host topological phases featuring Majorana edge modes whose wave-function seepage and protection depend on the quasiperiodicity pattern, with differential conductance varying according to how leads are attached.
citing papers explorer
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Fine-grained topological structures hidden in Fermi sea
Fermi seas with the same Euler characteristic χ_F possess distinct fine-grained topological structures captured by a new structural resolution factor, which topological superconductors inherit to produce anomalous gapless boundary states.
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Nonlocal transport phenomena in coupled quasiperiodic Kitaev chains
Coupled quasiperiodic Kitaev chains host topological phases featuring Majorana edge modes whose wave-function seepage and protection depend on the quasiperiodicity pattern, with differential conductance varying according to how leads are attached.