English

Coherent Optical Memory Baesd on A Laser-written On-chip Waveguide

Quantum Physics 2020-12-07 v2

Abstract

Quantum memory is the core device for the construction of large-scale quantum networks. For scalable and convenient practical applications, integrated optical memories, especially on-chip optical memories, are crucial requirements because they can be easily integrated with other on-chip devices. Here, we report the coherent optical memory based on a type-IV waveguide fabricated on the surface of a rare-earth ion-doped crystal (i.e. Eu3+\mathrm{Eu^{3+}}:Y2SiO5\mathrm{Y_2SiO_5}). The properties of the optical transition (7F05D0\mathrm{{^7}F{_0}\rightarrow{^5}D{_0}}) of the Eu3+\mathrm{Eu^{3+}} ions inside the surface waveguide are well preserved compared to those of the bulk crystal. Spin-wave atomic frequency comb storage is demonstrated inside the type-IV waveguide. The reliability of this device is confirmed by the high interference visibility of 97±1%{97\pm 1\%} between the retrieval pulse and the reference pulse. The developed on-chip optical memory paves the way towards integrated quantum nodes.

Keywords

Cite

@article{arxiv.2008.12901,
  title  = {Coherent Optical Memory Baesd on A Laser-written On-chip Waveguide},
  author = {Tian-Xiang Zhu and Chao Liu and Liang Zheng and Zong-Quan Zhou and Chuan-Feng Li and Guang-Can Guo},
  journal= {arXiv preprint arXiv:2008.12901},
  year   = {2020}
}

Comments

7 pages, 5 figures

R2 v1 2026-06-23T18:10:37.618Z