English

Tunable quantum photonic routing using a coupled giant-atom-like array

Quantum Physics 2025-11-19 v1

Abstract

We examine a quantum routing mechanism utilizing a giant-atom-like array coupled to two one-dimensional waveguides. The giant-atom-like array is formed by a one-dimensional array of three-level-systems. In the regime of strong atom-waveguide coupling and weak inter-atomic interactions, this system functions as an efficient and directionally controllable single-photon router. Our analysis shows that the routing behavior is influenced by effective phase accumulation and interference effects, which can be adjusted by varying the number of coupling sites NN, the photon energy EE, and the inter-atomic coupling strength JJ. Importantly, we identify configurations that enable perfect photon transfer (100%100 \% efficiency) over a wide range of energies and that provide dynamic control over the output channel. In addition, we investigate how the system responds to changes in its internal parameters, demonstrating the robustness and scalability of routing performance. These findings underscore the potential of this setup for implementation in reconfigurable and integrated quantum photonic networks.

Keywords

Cite

@article{arxiv.2511.13992,
  title  = {Tunable quantum photonic routing using a coupled giant-atom-like array},
  author = {Alexis R. Legón and Mario Miranda and P. A. Orellana},
  journal= {arXiv preprint arXiv:2511.13992},
  year   = {2025}
}

Comments

10 pages, 7 figures and 37 references

R2 v1 2026-07-01T07:42:24.045Z