具有100-T磁场的准无力磁体的计算机模型

2006 IEEE International Conference on Megagauss Magnetic Field Generation and Related Topics Pub Date : 2006-11-01 DOI:10.1109/MEGAGUSS.2006.4530705

G. Shneerson, O. S. Koltunov, D. A. Dyogtev, S. Krivosheev, V. V. Titkov, A. Borovkov, D. Mikhaluk

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引用次数: 3

摘要

构造特征磁感应强度约为100t的不灭磁体的问题，尽管许多实验室进行了努力，至今仍未得到解决。随着新型强材料的使用和绕组制造工艺的改进，有希望考虑用准无力(QFF)绕组构造磁体的可能性。先前的研究(例如，见1-4)已经表明，在含有平衡电流层的绕组中，有可能显著降低QFF磁体中的应力。在由N层组成的QFF磁体的基本部分，残余压力小于产生磁场的磁压力的N2倍。第一个全尺寸模型的QFF绕组5'6已经证明了其在一个系统中实现的可能性与面板屏蔽。在演讲中提出的计算的目的是在具体的例子上确认在可用材料构建的QFF磁体中实现兆高斯场的可能性。

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Computer Model of a Quasi-Force-Free Magnet with a 100-T Field

A problem of construction of the indestructible magnet with the characteristic magnetic induction of about 100 T has not been solved up to now notwithstanding efforts of many laboratories. Along with using of new strong materials and improving of the winding fabrication process it is promising to consider a possibility to construct a magnet with the quasi-force-free (QFF) winding. Previous study (see1-4, for example) has shown possibility to decrease significantly stresses in QFF magnet with the winding containing equilibrated current layers. In the basic part of the QFF magnet consisting of N layers, the residual pressure is N2 times less than the magnetic pressure of the generated field. The first full-scale model of the QFF winding 5'6 has demonstrated a possibility of its realization in a system with the face plate shields. The aim of calculations presented in the talk is to confirm on the concrete examples a possibility to achieve the megagauss field in the QFF magnet constructed from obtainable materials.

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2006 IEEE International Conference on Megagauss Magnetic Field Generation and Related Topics

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