Effect of the Conducting Shell and Its Gap on Generation of the Vertical Magnetic Field in a Tokamak Device

概要

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The equilibrium of a plasma confined in tokamak devices with an iron core is obtained by a superposition of the vertical magnetic fields generated by the image current flowing in the conducting shell, by the external coils and by the leakage magnetic field from the iron core. Among these the field by the shell plays the most significant role. However, it has been known theoretically that the existence of the shell gap decreases the vertical magnetic field by the shell, and it has been also suggested that the leakage magnetic field from the iron core is useful for compensating the dips of the vertical field near the shell gap. These vertical field distributions are investigated experimentally by using a special pick up coil and a simulated plasma current system to obtain the absolute intensity and the effect of the shell gap. The results give an effective gap width which is compared with the approximate theories.
社団法人応用物理学会の論文
1974-10-05