English

Decoherence-protected memory for a single-photon qubit

Quantum Physics 2017-12-13 v1

Abstract

The long-lived, efficient storage and retrieval of a qubit encoded on a photon is an important ingredient for future quantum networks. Although systems with intrinsically long coherence times have been demonstrated, the combination with an efficient light-matter interface remains an outstanding challenge. In fact, the coherence times of memories for photonic qubits are currently limited to a few milliseconds. Here we report on a qubit memory based on a single atom coupled to a high-finesse optical resonator. By mapping and remapping the qubit between a basis used for light-matter interfacing and a basis which is less susceptible to decoherence, a coherence time exceeding 100 ms has been measured with a time-independant storage-and-retrieval efficiency of 22%. This demonstrates the first photonic qubit memory with a coherence time that exceeds the lower bound needed for teleporting qubits in a global quantum internet.

Keywords

Cite

@article{arxiv.1712.03668,
  title  = {Decoherence-protected memory for a single-photon qubit},
  author = {M. Körber and O. Morin and S. Langenfeld and A. Neuzner and S. Ritter and G. Rempe},
  journal= {arXiv preprint arXiv:1712.03668},
  year   = {2017}
}

Comments

3 pages, 4 figures

R2 v1 2026-06-22T23:13:54.432Z