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Tunable single photon nonreciprocal scattering based on giant atom-waveguide chiral couplings

Ning Liu, Xin Wang, Xia Wang, Xiao-San Ma, Mu-Tian Cheng

2022Optics Express35 citationsDOIOpen Access PDF

Abstract

We theoretically investigate the single photon scattering properties in a waveguide chirally coupling to a giant atom. The single photon transmission spectrum depends on the direction of the single photon incident when the energy loss of the giant atom can not be neglected. The difference between the transmission probabilities corresponding to opposite transport direction ΔT is calculated. It shows that both of the position and width of the ΔT are dependent on the size of the giant atom. Furthermore, the position of the maximum ΔT and the frequency width of ΔT can be modulated by a classical laser beam. Our results will be beneficial to control single photons in quantum devices design involving giant atoms.

Topics & Concepts

PhysicsPhotonScatteringAtom (system on chip)Atomic physicsOpticsWaveguidePhoton energyEmbedded systemComputer scienceQuantum Information and CryptographyCold Atom Physics and Bose-Einstein CondensatesQuantum optics and atomic interactions
Tunable single photon nonreciprocal scattering based on giant atom-waveguide chiral couplings | Litcius