MeV Cluster Ion Beam–Material Interaction

IF 1.3 Q3 INSTRUMENTS & INSTRUMENTATION

Quantum Beam Science Pub Date : 2022-01-24 DOI:10.3390/qubs6010006

T. Kaneko

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引用次数: 1

Abstract

This paper treats the characteristic topics of MeV/atom cluster ion beams produced using tandem accelerators both in the production stage and in the penetration stage from the viewpoint of fundamental processes. The former is related to atomic collisions in that production and decay of a cluster ion colliding with a charge-changing rare gas underlined through the electron-loss process. Regarding the latter, relatively small carbon clusters are treated. The reduction effect of the average charge of cluster ions in a material is first presented. Next, the electronic stopping power and the energy loss, the polarization force, and the coulomb explosion under cluster-ion impact are described in the dielectric function form. Alignment and structure effects are stressed. As a large and highly symmetric cluster, the electronic stopping power and the average charge are shown for a C60 cluster ion moving inside a solid. Throughout the paper, it is emphasized that the vicinage effect originating from correlation on spatial structure and orientation of constituent ions plays the key role. Moreover, results obtained in cluster production and penetration phenomena are mostly different from multiplication of those under single-ion impact.

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MeV团簇离子束-材料相互作用

本文从基本过程的角度讨论了串联加速器产生的MeV/原子团簇离子束在产生阶段和穿透阶段的特征问题。前者与原子碰撞有关，即团簇离子的产生和衰变与电荷变化的稀有气体碰撞，通过电子损失过程突出显示。对于后者，处理相对较小的碳簇。首次提出了团簇离子在材料中平均电荷的减少效应。其次，以介电函数的形式描述了电子的停止功率和团簇离子碰撞下的能量损失、极化力和库仑爆炸，并强调了排列和结构效应。作为一个大的高度对称的团簇，C60团簇离子在固体中移动时的电子停止功率和平均电荷被显示出来。在整个论文中，强调了由相关性引起的相邻效应对组成离子的空间结构和取向起着关键作用。此外，在团簇产生和穿透现象中获得的结果与在单离子冲击下获得的结果大多不同。

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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