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欧洲放射性同位素分离装置(EURISOL)先进电子回旋共振和电子束离子源电荷增殖方法的前景。

Prospects for advanced electron cyclotron resonance and electron beam ion source charge breeding methods for EURISOL.

作者信息

Delahaye P, Galata A, Angot J, Ban G, Celona L, Choinski J, Gmaj P, Jakubowski A, Jardin P, Kalvas T, Koivisto H, Kolhinen V, Lamy T, Lunney D, Maunoury L, Porcellato A M, Prete G F, Steckiewicz O, Sortais P, Thuillier T, Tarvainen O, Traykov E, Varenne F, Wenander F

机构信息

GANIL, CEA∕DSM-CNRS∕IN2P3, Bd. Becquerel, BP 55027, 14076 Caen Cedex 05, France.

出版信息

Rev Sci Instrum. 2012 Feb;83(2):02A906. doi: 10.1063/1.3665960.

DOI:10.1063/1.3665960
PMID:22380247
Abstract

As the most ambitious concept of isotope separation on line (ISOL) facility, EURISOL aims at producing unprecedented intensities of post-accelerated radioactive isotopes. Charge breeding, which transforms the charge state of radioactive beams from 1+ to an n+ charge state prior to post-acceleration, is a key technology which has to overcome the following challenges: high charge states for high energies, efficiency, rapidity and purity. On the roadmap to EURISOL, a dedicated R&D is being undertaken to push forward the frontiers of the present state-of-the-art techniques which use either electron cyclotron resonance or electron beam ion sources. We describe here the guidelines of this R&D.

摘要

作为最具雄心的在线同位素分离(ISOL)设施概念,欧洲同位素分离与加速器装置(EURISOL)旨在产生前所未有的后加速放射性同位素强度。电荷增殖是一项关键技术,它在进行后加速之前将放射性束流的电荷态从1+转变为n+电荷态,必须克服以下挑战:高能量下的高电荷态、效率、速度和纯度。在通往EURISOL的路线图上,正在开展专门的研发工作,以推动当前使用电子回旋共振或电子束离子源的最先进技术的前沿发展。我们在此描述这项研发工作的指导方针。

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