Applications of Microbeams Produced by Tapered Glass Capillary Optics

Tokihiro Ikeda

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Applications of Microbeams Produced by Tapered Glass Capillary Optics

机译：锥形玻璃毛细光学产生的微磁束的应用

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Production of ion microbeams using tapered glass capillary optics was introduced more than 10 years ago. This technique has drawn attention in terms of both its peculiar transmission features and application to ion beam analysis. The transmission mechanism based on a self-organized charge-up process for keV-energy ions was observed for the first time in an experiment using a multitude of nanometer-sized capillaries in a polymer foil. The same mechanism can be seen for the transmission of keV ions through a single tapered glass capillary. The transmission experiments with keV ions showed a delayed transmission, focusing effects, guiding effects, and formation of microbeams. Experiments using MeV-energy ions always aim at applications of microbeam irradiation for material analysis, surface modification, cell surgery, and so on. In this article, the applications of MeV ion microbeams, including the fabrication method of the glass capillary, are reviewed, as well as the experimental and theoretical studies for the transmission mechanisms of keV/MeV ions.

机译：超过10年前推出了使用锥形玻璃毛细管光学器件的离子微沟。这种技术在其特殊的传输特征和应用于离子束分析方面引起了关注。在使用聚合物箔中的多个纳米大小的毛细管在实验中首次观察到基于自组织电荷处理的传动机制。可以通过单个锥形玻璃毛细管传递kev离子的相同机制。具有KeV离子的传输实验显示出延迟的透射率，聚焦效果，指导效应和微观辐射的形成。使用MeV-Energy离子的实验始终旨在用于材料分析，表面改性，细胞手术等微沟辐射的应用。在本文中，综述了MEV离子微观掩模的应用，包括玻璃毛细管的制造方法，以及对KeV / MEV离子的传动机制的实验和理论研究。

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《Quantum Beam Science》 |2020年第2期|共30页
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Tokihiro Ikeda;
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中图分类物理学;
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irradiationmicrobeamguiding effectfocusing effectbeam applicationDNA damage;

机译：辐照辐射效应耗竭效应效应效应;

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1. Production of Slow Highly Charged Ions Microbeams with Focusing Effect through a Tapered Glass Capillary [J] . Xue Yingli, Chen Jing, Liu Junliang, 中国科学院近代物理研究所和兰州重离子研究装置年报：英文版 . 2011,第001期
2. Transmission and Focusing of 90 keV O6＋ Ions through a Tapered Glass Capillary [J] . Chen Jing, Wu Yehong, Liu Junliang, 中国科学院近代物理研究所和兰州重离子研究装置年报：英文版 . 2011,第001期
3. 4 - 24 Time Evolution of Ion Guiding through a Tapered Glass Capillary [J] . Chen Jing, Liu Junliang, Wu Yehong, 中国科学院近代物理研究所和兰州重离子研究装置年报：英文版 . 2010,第001期
4. Transmission of High Current Electrons Through a Tapered Glass Capillary [J] . Wang Wei, Chen Jing, Yu Deyang, 近代物理研究所和兰州重离子加速器实验室年报：英文版 . 2009,第001期
5. Applications of Microbeams Produced by Tapered Glass Capillary Optics [J] . Tokihiro Ikeda Quantum Beam Science . 2020,第2期

机译：锥形玻璃毛细管光学产生的微观芯片应用
6. Profile measurements of MeV ion microbeams in atmosphere extracted from single tapered glass capillaries with an end window [J] . Tokihiro Ikeda, Mayuka Ikekame, Yuka Hikima, Nuclear Instruments & Methods in Physics Research. B, Beam Interactions with Materials and Atoms . 2020,第May1期

机译：用末端窗口从单个锥形玻璃毛细管中提取的大气中MEV离子微沟的轮廓测量
7. Irradiation of Fucci-expressing HeLa cells using a tapered glass capillary microbeam [J] . Nitipon Puttaraksa, Volkhard Maeckel, Tomohiro Kobayashi, Nuclear Instruments & Methods in Physics Research. B, Beam Interactions with Materials and Atoms . 2015,第apra1期

机译：使用锥形玻璃毛细管微束辐照表达Fucci的HeLa细胞
8. Application of keV and MeV ion microbeams through tapered glass capillaries [C] . T Ikeda, T M Kojima, T Kobayashi, Summer School and International Symposium on the Physics of Ionized Gases . 2013

机译：KEV和MEV离子微磁束通过锥形玻璃毛细管应用
9. Multi-tapered x-ray capillary optics for mammography. [D] . Bradford, Carla Duquesne. 2000

机译：用于乳腺摄影的多锥度X射线毛细管光学器件。
10. Additive Manufacturing of Micromanipulator Mounted on a Glass Capillary for Biological Applications [O] . Shingo Kozaki, Yukihito Moritoki, Taichi Furukawa, 2020

机译：安装在用于生物应用的玻璃毛细管上的微操纵器的增材制造
11. Applications of Microbeams Produced by Tapered Glass Capillary Optics [O] . Tokihiro Ikeda 2020

机译：锥形玻璃毛细管光学产生的微观芯片应用
12. Study of Glass Preforms for Glass Fiber Optics Applications (Study of Space Processing of Ceramic Materials) [R] . Wang, F. F. Y. 1974

机译：玻璃纤维应用用玻璃预制件的研究（陶瓷材料空间加工研究）

Applications of Microbeams Produced by Tapered Glass Capillary Optics

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