A microscopic theory and experiments unify conventional structural chirality with synthetic chirality from traveling-wave phase accumulation to explain magnetic nonreciprocity.
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Two giant atoms in a waveguide-QED system form both static bound states with persistent excitations and oscillating bound states featuring periodic atom-photon exchanges and extra harmonic components from quasi-dark modes.
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Theory and Experiment of Chirality-induced Magnetic Nonreciprocity Manifested by Coupling Phase
A microscopic theory and experiments unify conventional structural chirality with synthetic chirality from traveling-wave phase accumulation to explain magnetic nonreciprocity.
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Oscillating bound states in waveguide-QED system with two giant atoms
Two giant atoms in a waveguide-QED system form both static bound states with persistent excitations and oscillating bound states featuring periodic atom-photon exchanges and extra harmonic components from quasi-dark modes.