A three-step model for optimizing coil spacings inside cuboid-shaped magnetic shields

Tianhao Liu, A. Schnabel, J. Voigt, Zhiyin Sun, Liyi Li
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引用次数: 3

Abstract

A three-step model for calculating the magnetic field generated by coils inside cuboid-shaped shields like magnetically shielded rooms (MSRs) is presented. The shield is modelled as two parallel plates of infinite width and one tube of infinite height. We propose an improved mirror method which considers the effect of the parallel plates of finite thickness. A reaction factor is introduced to describe the influence of the vertical tube, which is obtained from finite element method (FEM) simulations. By applying the improved mirror method and then multiplying the result with the reaction factor, the magnetic flux density within the shielded volume can be determined in a fast computation. The three-step model is verified both with FEM and measurements of the field of a Helmholtz coil inside an MSR with a superconducting quantum interference device. The model allows a fast optimization of shield-coupled coil spacings compared to repetitive time-consuming FEM calculations. As an example, we optimize the distance between two parallel square coils attached to the MSR walls. Measurements of a coil prototype of 2.75~m in side length show a magnetic field change of 18~pT over the central 5~cm at the field strength of 2.7~\textmu T. This obtained relative field change of 6~ppm is a factor of 5.4 smaller than our previously used Helmholtz coil.
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一种优化长方体磁屏蔽线圈间距的三步模型
提出了一种计算磁屏蔽室等长方体屏蔽内线圈磁场的三步法模型。盾构被建模为两个无限宽的平行板和一个无限高的管。提出了一种考虑有限厚度平行板影响的改进反射法。通过有限元模拟,引入了反应因子来描述竖直管的影响。采用改进的镜面法,将结果与反应因子相乘,可以快速计算出屏蔽体内的磁通密度。用有限元法和带超导量子干涉装置的MSR内亥姆霍兹线圈的场测量对三步模型进行了验证。与重复耗时的FEM计算相比,该模型允许快速优化屏蔽耦合线圈间距。作为一个例子,我们优化了连接在MSR壁上的两个平行方形线圈之间的距离。对边长为2.75~m的原型线圈的测量表明,在场强为2.7~ textmu t时,在中心5~cm处的磁场变化为18~pT,得到的相对场变化为6~ppm,比我们以前使用的亥姆霍兹线圈小5.4倍。
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