ON THE POSSIBILITY OF OBTAINING A BEAM OF HEAVY IONS IN THE FORM OF AN “OPEN UMBRELLA” WITH SUBSEQUENT DEPOSITION IN THE SEPARATOR MANIFOLD

IF 0.5 Q4 PHYSICS, NUCLEAR

Problems of Atomic Science and Technology Pub Date : 2023-08-21 DOI:10.46813/2023-146-105

V. Yuferov, V. Katrechko, D. Vinnikov, V. Tkachev, S.V. Sharyi, O.M. Ozerov, D.D. Sorokina

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Abstract

The study of SNF reprocessing is impossible without obtaining and studying a multicomponent, low-energy and complex ion beam of an “umbrella” shape. The beam is obtained from a plasma flow created in a plasma source (PS) with a magnetic field of about 3 T, flowing along the axis into a weak magnetic field, at a level of 0.1…0.5 T. At the same time, its density decreases, and the entire energy of the plasma is converted into a jet directed along the axis. To randomize the particles of the jet plasma, a reflecting magnetic field is further placed on the axis. Without changing direction, the plasma flows in a hollow magnetic force tube around a solenoid with a reverse magnetic field. In this region, ions are drawn out in the radial direction towards the annular hole of the “pocket”. The target ions, M (230-277) follow umbrella trajectories and, being neutralized, are deposited in the “pocket” on the inner walls, the remaining ~ 3% are scattered and remain on the walls of the separator.

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关于在分离器歧管中获得“开伞”形式的重离子束的可能性

如果没有获得和研究伞形的多组分、低能和复杂离子束，SNF后处理的研究是不可能的。该光束是在磁场约为3t的等离子体源(PS)中产生的等离子体流中获得的，沿着轴流入弱磁场，水平为0.1…0.5 T。同时，其密度降低，等离子体的全部能量转换成沿轴方向的射流。为了使喷射等离子体的粒子随机化，在轴上进一步放置一个反射磁场。在不改变方向的情况下，等离子体在一个空心磁力管中围绕一个具有反向磁场的螺线管流动。在这个区域，离子沿着径向向“口袋”的环形孔被抽出。目标，M(230-277)沿着伞形轨迹，被中和后，沉积在内壁的“口袋”中，剩余的约3%分散并留在分离器的壁上。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Problems of Atomic Science and Technology 物理-核科学技术

CiteScore

0.70

自引率

50.00%

发文量

审稿时长

2-4 weeks

期刊介绍： The journal covers the following topics: Physics of Radiation Effects and Radiation Materials Science; Nuclear Physics Investigations; Plasma Physics; Vacuum, Pure Materials and Superconductors; Plasma Electronics and New Methods of Acceleration.