Quick change of ion species of heavy-ion microbeam by cocktail beam acceleration technique with the JAEA AVF cyclotron

A heavy-ion microbeam with hundreds of MeV energy is utilized for research in biotechnology and materials science at the JAEA AVF cyclotron facility. Beam users need microbeams providing a wide range of the LET. We have to change ion species and/or energy in order to vary the LET widely. However, it...

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Veröffentlicht in:	Nuclear instruments & methods in physics research. Section B, Beam interactions with materials and atoms Beam interactions with materials and atoms, 2009-06, Vol.267 (12), p.2024-2027
Hauptverfasser:	Kurashima, Satoshi, Yoshida, Ken-ichi, Oikawa, Masakazu, Satoh, Takahiro, Miyawaki, Nobumasa, Yuyama, Takahiro, Okumura, Susumu, Kashiwagi, Hirotsugu, Ishibori, Ikuo, Nara, Takayuki, Kamiya, Tomihiro, Fukuda, Mitsuhiro, Yokota, Watalu
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Sprache:	eng
Schlagworte:	AVF cyclotron Cocktail beam acceleration technique Flat-top acceleration Heavy-ion microbeam
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container_end_page	2027
container_issue	12
container_start_page	2024
container_title	Nuclear instruments & methods in physics research. Section B, Beam interactions with materials and atoms
container_volume	267
creator	Kurashima, Satoshi Yoshida, Ken-ichi Oikawa, Masakazu Satoh, Takahiro Miyawaki, Nobumasa Yuyama, Takahiro Okumura, Susumu Kashiwagi, Hirotsugu Ishibori, Ikuo Nara, Takayuki Kamiya, Tomihiro Fukuda, Mitsuhiro Yokota, Watalu
description	A heavy-ion microbeam with hundreds of MeV energy is utilized for research in biotechnology and materials science at the JAEA AVF cyclotron facility. Beam users need microbeams providing a wide range of the LET. We have to change ion species and/or energy in order to vary the LET widely. However, it takes much time to develop a new microbeam of different ion species step by step using a flat-top acceleration system. A cocktail beam acceleration technique is frequently used to change the ion species and energy quickly. The cocktail beam acceleration has been first applied to the microbeam formation for quick change of the ion species. As a result, we have succeeded to reduce considerably microbeam changing time to within 30 min between a 520 MeV 40Ar 14+ and a 260 MeV 20Ne 7+. No deterioration of the microbeam spot size has been confirmed using a SE image of a copper grid.
doi_str_mv	10.1016/j.nimb.2009.03.083
format	Article
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subjects	AVF cyclotron Cocktail beam acceleration technique Flat-top acceleration Heavy-ion microbeam
title	Quick change of ion species of heavy-ion microbeam by cocktail beam acceleration technique with the JAEA AVF cyclotron
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