Phase-matching cavity resonances enable perfect transmission at discrete energies in bilayer graphene barriers via single-mode internal coherence without opening decoupled channels.
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Space-time modulation of EM potentials enables Klein tunneling far below the static threshold via oblique transitions, producing a velocity-tunable Klein gap with transmission vanishing in a finite velocity window.
Bilayer graphene junctions exhibit a tunable conductance threshold marking upper-band onset and symmetry-suppressed transmission that strain and bias can shift without disorder.
citing papers explorer
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Mode-selective cloaking and phase-matching cavity resonances in bilayer graphene transport
Phase-matching cavity resonances enable perfect transmission at discrete energies in bilayer graphene barriers via single-mode internal coherence without opening decoupled channels.
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Access to Klein Tunneling via Space-Time Modulation
Space-time modulation of EM potentials enables Klein tunneling far below the static threshold via oblique transitions, producing a velocity-tunable Klein gap with transmission vanishing in a finite velocity window.
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Mode-Resolved Multiband Ballistic Transport and Conductance Thresholds in Bilayer Graphene Junctions
Bilayer graphene junctions exhibit a tunable conductance threshold marking upper-band onset and symmetry-suppressed transmission that strain and bias can shift without disorder.