Abstract The paper describes a fusion reactor scheme consisting of two 200-m-long magnetic mirrors with a ratio of two connected by semicircular sections to form a racetrack configuration. The two most serious problems of magnetic mirrors, magnetohydrodynamic stability and end losses, are solved by minimizing the negative curvature of the mirror magnetic field lines and using helical windings in the curved sections to add a positive curvature and strong shear to the magnetic field lines at and beyond the mirror throat and for confining the mirror end losses. The reactor should be capable of producing at least 13 GW of fusion power when operating in deuterium-tritium at the same plasma density and temperature as ITER.

中文翻译：

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使用磁镜的聚变反应堆方案

摘要 本文描述了一个聚变反应堆方案，它由两个 200 米长的磁镜组成，磁镜的比例为 2，通过半圆形截面连接形成跑道配置。磁镜的两个最严重的问题，磁流体动力学稳定性和端部损耗，通过最小化镜面磁力线的负曲率和在弯曲部分使用螺旋绕组在磁力线处增加正曲率和强剪切来解决。并超出镜喉并用于限制镜端损失。当在与 ITER 相同的等离子体密度和温度下在氘氚中运行时，该反应堆应该能够产生至少 13 GW 的聚变功率。