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Main Authors: Chen, Wei-Bin, Fang, Ding, Zhang, Cheng-Hao, Cui, Jin-Ming, Huang, Yun-Feng, Li, Chuan-Feng, Guo, Guang-Can
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2510.25294
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author Chen, Wei-Bin
Fang, Ding
Zhang, Cheng-Hao
Cui, Jin-Ming
Huang, Yun-Feng
Li, Chuan-Feng
Guo, Guang-Can
author_facet Chen, Wei-Bin
Fang, Ding
Zhang, Cheng-Hao
Cui, Jin-Ming
Huang, Yun-Feng
Li, Chuan-Feng
Guo, Guang-Can
contents Trapped ions in micro-cavities constitute a key platform for advancing quantum information processing and quantum networking. By providing an efficient light-matter interface within a compact architecture, they serve as highly efficient quantum nodes with strong potential for scalable quantum network. However, in such systems, ion trapping stability is often compromised by surface charging effects, and nearby dielectric materials are known to cause a dramatic increase in the ion heating rate by several orders of magnitude. These challenges significantly hinder the practical implementation of ion trap systems integrated with micro-cavities. To overcome these limitations, we present the design and fabrication of metal-shielded micro-cavity mirrors, enabling the stable realization of ion trap systems integrated with micro cavities. Using this method, we constructed a needle ion trap integrated with fiber Fabry-Perot cavity and successfully achieved stable trapping of a single ion within the cavity. The measured ion heating rate was reduced by more than an order of magnitude compared with unshielded configurations. This work establishes a key technique toward fully integrated ion-photon interfaces for scalable quantum network.
format Preprint
id arxiv_https___arxiv_org_abs_2510_25294
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Design and Fabrication of Metal-Shielded Fiber-Cavity Mirrors for Ion-Trap Systems
Chen, Wei-Bin
Fang, Ding
Zhang, Cheng-Hao
Cui, Jin-Ming
Huang, Yun-Feng
Li, Chuan-Feng
Guo, Guang-Can
Quantum Physics
Trapped ions in micro-cavities constitute a key platform for advancing quantum information processing and quantum networking. By providing an efficient light-matter interface within a compact architecture, they serve as highly efficient quantum nodes with strong potential for scalable quantum network. However, in such systems, ion trapping stability is often compromised by surface charging effects, and nearby dielectric materials are known to cause a dramatic increase in the ion heating rate by several orders of magnitude. These challenges significantly hinder the practical implementation of ion trap systems integrated with micro-cavities. To overcome these limitations, we present the design and fabrication of metal-shielded micro-cavity mirrors, enabling the stable realization of ion trap systems integrated with micro cavities. Using this method, we constructed a needle ion trap integrated with fiber Fabry-Perot cavity and successfully achieved stable trapping of a single ion within the cavity. The measured ion heating rate was reduced by more than an order of magnitude compared with unshielded configurations. This work establishes a key technique toward fully integrated ion-photon interfaces for scalable quantum network.
title Design and Fabrication of Metal-Shielded Fiber-Cavity Mirrors for Ion-Trap Systems
topic Quantum Physics
url https://arxiv.org/abs/2510.25294