# Fe‐Based Nanocrystalline Magnetic Shielding Cylinder with Subfemtotesla‐Level Magnetic Noise

**Authors:** Peipei Shen, Danyue Ma, Kun Wang, Shuang Li, Yanan Gao, Pengfei Wang, FuSen Yuan, Hua Chen, Zhuo Wang, Ziling Liu, Meng Xie, Bo Li, Hongbo Zhou, Baoan Sun

PMC · DOI: 10.1002/advs.202522435 · Advanced Science · 2026-01-27

## TL;DR

A new magnetic shielding system using Fe-based nanocrystals achieves ultra-low magnetic noise, improving precision in measuring weak magnetic fields.

## Contribution

Fe-based nanocrystalline shielding cylinders offer a lightweight, cost-effective solution with subfemtotesla-level noise.

## Key findings

- Fe-based nanocrystals exhibit a permeability of 64,000 and a low loss factor of 2.4 × 10−7.
- A ten-layer Fe-nano magnetic shielding cylinder achieves 0.84 fT Hz−1/2 noise in 20–100 Hz range.
- The system is lightweight, easily processable, and suitable for biomagnetism and fundamental physics.

## Abstract

The precision measurement of extremely weak magnetic fields using spin‐exchange relaxation‐free atomic magnetometers demands magnetic shielding system with high shielding efficiency and low magnetic noise. Conventional magnetic shielding system (CMSS) based on µ‐metal, however, often exhibits high magnetic noise. Herein, we propose a strategy to overcome this challenge, which is realized by using the Fe‐based nanocrystalline (Fe‐Nano) magnetic shielding cylinder (MSC) as the innermost magnetic shield of CMSS. The Fe‐based nanocrystals (Fe‐Nanos) prepared via the melt‐spinning method followed by a three‐step annealing process exhibit excellent soft magnetic properties with the permeability of 64 000, indicating superior magnetic shielding performance. The average loss factor of the Fe‐Nanos is only 2.4 × 10−7, which is significantly lower than that of µ‐metal and indicates that Fe‐Nanos has lower intrinsic magnetization noise. The Fe‐Nano MSC with different thicknesses significantly suppresses magnetic noise when used as the innermost magnetic shield of CMSS. In particular, the ten‐layer Fe‐Nano MSC achieves an average magnetic noise of 0.84 fT Hz−1/2 in the frequency range of 20–100 Hz. This work provides a lightweight, easily processable, and cost‐effective strategy for the magnetic shielding system with ultra‐low magnetic noise, which will promote its large‐scale application in emerging fields such as biomagnetism and fundamental physics.

Shields with low magnetic noise are achieved by integrating Fe‐based nanocrystalline magnetic shielding cylinders into shielding systems based on μ‐metal. Benefiting from high permeability and low loss factor, Fe‐based nanocrystalline magnetic shielding cylinders effectively suppress magnetic noise. Notably, the magnetic shielding cylinder with the ten‐layer reaches 0.84 fT Hz−1/2, supporting ultra‐sensitive magnetic field detection.

## Full-text entities

- **Chemicals:** Fe (MESH:D007501), Cylinder (-)

## Full text

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## Figures

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## References

67 references — full list in the complete paper: https://tomesphere.com/paper/PMC13042587/full.md

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Source: https://tomesphere.com/paper/PMC13042587