Uniform Magnetic Field Between Face-to-Face HTS Bulk Magnets Combining Concave and Convex Magnetic Field Distributions
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- 作者:T. Okaa ; okat@eng.niigata-u.ac.jp" class="auth_mail" title="E-mail the corresponding author ; Y. Takahashia ; S. Yaginumaa ; J. Ogawaa ; S. Fukuia ; T. Satoa ; K. Yokoyamab ; T. Nakamurac
- 关键词:Bulk magnet ; superconductor ; pulsed-field magnetization ; magnetic field distribution ; NMR
- 刊名:Physics Procedia
- 出版年:2016
- 出版时间:2016
- 年:2016
- 卷:81
- 期:Complete
- 页码:45-48
- 全文大小:874 K
文摘
The authors have been attempting to obtain the uniform magnetic field distribution in the space between the face-to-face HTS bulk magnets. The magnetic poles containing the HTS bulk magnets are usually characterized as non-uniform magnetic field distribution. Since the distributions show the conical or convex shapes, it is difficult to obtain the uniform magnetic field spaces even when the magnetic poles would be placed face-to-face. The authors have modified the shape of the distribution of one-side magnetic pole by attaching an iron plate on the surface, and formed the concave magnetic field distribution on the pole surface. The steep concave or convex distributions at each pole surface change to be flat with increasing distance from the pole surface. After the experimental result recording the best uniformity of 358 ppm by combining the concave and convex field distributions face-to-face, we attempted to simulate the feasible performance in this configuration. In the numerical simulation, the concave field distribution modified by attaching an imaginary spiral coil on the pole surface was coupled with the original convex field. We succeeded in obtaining the best uniformity of 30 ppm at 1.1 T in 4 x 4 mm2x-y plane at 7 mm distant from the pole surface in the gap of 30 mm. This result suggests that the concave and convex magnetic field distributions compensate the field uniformity with each other with keeping the magnetic field strength in the gap, and also suggests the novel compact NMR/MRI devices in the future.