English

Coherence Transfer in Quantum Networks

Quantum Physics 2026-04-21 v1

Abstract

Detecting coherence transfer in complex quantum networks can be challenging due to uncharacterized experimental conditions and limited system access. Here, we use static and dynamic coherence features to introduce a nonlinear criterion for identifying coherence transfer. The criterion requires only two measurement settings for network-state populations in an experimental state basis, regardless of the network's size. It remains valid even when the verification capabilities of checkpoint nodes are uncharacterized. The principle and method are general, encompassing networks with different access levels and scenarios, from those requiring no input changes to those involving coherence dynamics in the time domain. Experimentally, using remote state preparation and entanglement swapping, we transfer single polarization qubits and polarization-entangled pairs in four- and six-photon entanglement networks. The criterion provides experimental evidence of coherence transfer in multi-photon entanglement networks. Our findings offer a practical tool for coherence transfer in quantum information and open quantum systems in networks.

Keywords

Cite

@article{arxiv.2604.17196,
  title  = {Coherence Transfer in Quantum Networks},
  author = {Chun-Yang Lin and Yu-Cheng Li and Shih-Hsuan Chen and Sheng-Yan Sun and Ching-Jui Huang and Kuan-Jou Wang and Che-Ming Li},
  journal= {arXiv preprint arXiv:2604.17196},
  year   = {2026}
}
R2 v1 2026-07-01T12:16:25.472Z