A propagating front in a high-kinetic-inductance superconducting line induces a tunable Doppler shift that converts microwave wave-packet frequencies by up to 3.7 percent without distorting their temporal envelope.
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Photon anomalous blockade arises via the quantum Zeno effect in weakly driven waveguide cavity QED with atomic mirrors, even in bad cavities with large dissipation and weak coupling.
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Doppler-induced tunable and shape-preserving frequency conversion of microwave wave packets
A propagating front in a high-kinetic-inductance superconducting line induces a tunable Doppler shift that converts microwave wave-packet frequencies by up to 3.7 percent without distorting their temporal envelope.
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Photon Anomalous Blockade in Waveguide Cavity QED with Atomic Mirrors
Photon anomalous blockade arises via the quantum Zeno effect in weakly driven waveguide cavity QED with atomic mirrors, even in bad cavities with large dissipation and weak coupling.