Numerical transport calculations show topological corner states in a modified Kane-Mele SOTI mediate perfect Andreev reflection near zero energy via resonant tunneling, with tunable antiresonance dips.
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2 Pith papers cite this work. Polarity classification is still indexing.
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2026 2verdicts
UNVERDICTED 2representative citing papers
Numerical evolution of the BBH model with controlled gain shows stable lasing modes are set by topological corner and edge states, with new ratios τ1, τ2, and χ that jump at phase transitions when the hopping ratio γ/λ is varied.
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Andreev reflection mediated by topological corner states in a two-dimensional honeycomb lattice
Numerical transport calculations show topological corner states in a modified Kane-Mele SOTI mediate perfect Andreev reflection near zero energy via resonant tunneling, with tunable antiresonance dips.
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Nonlinear topological laser based on multipole insulators
Numerical evolution of the BBH model with controlled gain shows stable lasing modes are set by topological corner and edge states, with new ratios τ1, τ2, and χ that jump at phase transitions when the hopping ratio γ/λ is varied.