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Few-photon isolation in a one-dimensional waveguide using chiral quantum coupling.

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    This study explores photon transmission in a waveguide coupled to a resonator and quantum emitter. The research demonstrates a novel optical diode using photon polarization and non-reciprocal behavior.

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    Area of Science:

    • Quantum optics
    • Solid-state physics
    • Nanophotonics

    Background:

    • Investigating quantum phenomena in coupled systems is crucial for developing advanced optical devices.
    • Non-reciprocity in optical systems is a key challenge for device miniaturization and integration.

    Purpose of the Study:

    • To investigate the transmission of single and two photons in a waveguide coupled to a Kerr micro-ring resonator and a polarized quantum emitter.
    • To demonstrate non-reciprocal behavior and its potential application as an optical diode.

    Main Methods:

    • Analytical solutions and numerical simulations were employed to model photon transmission.
    • The study focused on the effects of nonlinear resonator scattering and unbalanced coupling.

    Main Results:

    • A phase shift was observed for both single and two-photon transmission.
    • Non-reciprocal behavior was attributed to unbalanced coupling and nonlinear scattering.
    • Two-photon resonance led to polarization locking and directional control of photons.

    Conclusions:

    • The proposed configuration, utilizing a coupled waveguide-resonator-emitter system, exhibits non-reciprocal transmission.
    • This system can function as an optical diode, controlling light flow directionally.