Octagonal Three-Dimensional Shim Coils Structure and Design in Atomic Sensors for Magnetic Field Detection
Kun Wang, Jinji Sun, Danyue Ma, Siran Li, Yanan Gao, Jixi Lu, Jiahe Zhang
Abstract
Triaxial uniform coils installed in the magnetically shielded cylinder are essential components of an atomic magnetometer to achieve ultra-sensitive measurements and are used to compensate for the ambient magnetic remanence in the magnetometer’s operating area. This paper proposes the new three-dimensional octagonal coils configured with a two-pair octagonal coil and two double-nested octagonal coils, which differs from the conventional square or circular shim coils. The spatially homogeneous distribution of the magnetic field of the three-dimensional shim coils based on this configuration is simulated and evaluated, and then the fabrication and experimental tests are completed. The theoretical calculation results show that the magnetic field uniformity of the z-direction two-pair octagonal coil is improved by about one order of magnitude compared with that of the conventional coil such as the Lee-Whiting coil and the Rubens coil. The magnetic field uniformity of x-direction or y-direction double nested octagonal coil is promoted by about two orders of magnitude compared with that of saddle coil. The experimental magnetic field distribution is consistent with the theoretical value. This configuration can reduce the outer diameter of the coil under the premise of meeting the requirement of setting the magnetic field uniform zone, and it is easier to install than the cylindrical coil assemblies.