Giant atoms in a topological waveguide enable adiabatic conversion between photonic bound states via protected energy-level crossings, achieving high-fidelity splitting-to-combining transfer and shape-preserving multi-atom routing.
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2 Pith papers cite this work. Polarity classification is still indexing.
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Pith papers citing it
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quant-ph 2years
2026 2verdicts
UNVERDICTED 2representative citing papers
Asymmetric coupling of a detuned giant-molecule to parallel waveguides produces tunable doublet resonances and deterministic single-photon routing via interference, with retardation effects driving regime transitions and multiple avoided crossings.
citing papers explorer
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Photonic state engineering via energy-level crossing by giant atoms in topological waveguide QED setup
Giant atoms in a topological waveguide enable adiabatic conversion between photonic bound states via protected energy-level crossings, achieving high-fidelity splitting-to-combining transfer and shape-preserving multi-atom routing.
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Single-photon scattering by a giant molecule asymmetrically coupled to parallel waveguides
Asymmetric coupling of a detuned giant-molecule to parallel waveguides produces tunable doublet resonances and deterministic single-photon routing via interference, with retardation effects driving regime transitions and multiple avoided crossings.