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Single-photon scattering from a chain of giant atoms coupled to a one-dimensional waveguide

Yuan-Peng Peng, W. Z. Jia

2023Physical review. A/Physical review, A36 citationsDOIOpen Access PDF

Abstract

We investigate coherent single-photon transport in a waveguide quantum electrodynamics structure containing multiple giant atoms. The single-photon scattering amplitudes are solved using a real-space method. The results give rise to a clear picture of the multichannel scattering process. In the case of identical and equally spaced giant atoms in a separate configuration, we also use the transfer-matrix method to express the scattering amplitudes in terms of compact analytical expressions, which allow us to conveniently analyze the properties of the scattering spectra. Based on these theoretical results, we find that the nondipole effects of giant atoms, which are relevant to the design of the setup, can strongly manipulate several types of collective properties of the output fields, including the superradiant phenomenon, the multiple Fano interference, and the photonic band gap. This makes it possible to manipulate the photon transport in a more versatile way than with small atoms. We also make a proposal to probe the topological states of a chain of braided giant atoms by using photon scattering spectra, showing that waveguide quantum electrodynamics systems with giant atoms are ideal platforms to merge topological physics and on-chip quantum optics.

Topics & Concepts

PhysicsScatteringPhotonScattering amplitudeQuantumFano resonanceQuantum mechanicsAtomic physicsPlasmonQuantum Information and CryptographyQuantum optics and atomic interactionsMechanical and Optical Resonators
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