Development of a new generation of ion beams

M. Nojima
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引用次数: 1

Abstract

Ion beams have many applications. Junior Associate Professor Masahi Nojima, Research Institute of Science and Technology at the Tokyo University of Science, Japan, is working to create a new generation of ion beams. Already, he has successfully developed new techniques for producing focused ion beams (FIB). In his most recent work, Nojima has developed a metallic solution ion source that will be used to construct unknown functional materials by using ion beams made up of specific elements. The metallic solution ion source can generate a copy of an original structure using elementally selected materials. With support from the Japan Society for the Promotion of Science (JSPS), KAKENHI, the academic incentive system of the KIOXIA Corporation 2021 and the Toshiba Electric Devices & Storage Corporation 2021, Nojima is seeking to open up new materials for use as ion sources utilising electrospray ionisation (ESI) methods. By harnessing the elements of FIBs primarily created from liquid metal ion source (LMIS) by field ionisation processes, Nojima hopes to create new generations of ion beams. To date, he and the team have displayed the result of mass separating metallic ion solution ion beams on random conditions and, looking ahead, intend to estimate the stopping range of mass selected ion beams in solid materials.
新一代离子束的发展
离子束有许多用途。日本东京科技大学科学技术研究所的初级副教授Masahi Nojima正在努力创造新一代离子束。他已经成功地开发了产生聚焦离子束(FIB)的新技术。在他最近的工作中,Nojima开发了一种金属溶液离子源,将通过使用由特定元素组成的离子束来构建未知的功能材料。金属溶液离子源可以使用元素选择的材料生成原始结构的副本。在日本科学促进会(JSPS)、KAKENHI、KIOXIA Corporation 2021年的学术激励制度和东芝电气器件与存储公司2021年的支持下,野岛正寻求利用电喷雾电离(ESI)方法开发用作离子源的新材料。野岛希望通过利用主要由液态金属离子源(LMIS)通过场电离过程产生的离子束元素,来创造新一代的离子束。到目前为止,他和他的团队已经展示了随机条件下质量分离金属离子溶液离子束的结果,展望未来,他们打算估计质量选择离子束在固体材料中的停止范围。
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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