D. Winklehner, S. Axani, P. Bedard, J. Conrad, J. Corona, Frances Hartwell, J. Smolsky, Aashish Tripathee, L. Waites, P. Weigel, T. Wester, Maria Yampolskaya
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引用次数: 1
摘要
IsoDAR是一项正在开发的实验,旨在利用同位素衰变-静止(DAR)产生机制来寻找无菌中微子,其中质子撞击9Be产生中子,中子捕获7Li,然后衰变产生v¯e。由于这将是一个各向同性的v¯e源,因此初级驱动电流必须很大(10 mA cw),以便IsoDAR在运行5年内有足够的统计数据得出结论。选择H2+作为主离子是为了克服低能束流输运和注入紧凑回旋加速器时的空间电荷限制。H2+会先于目标被剥离成质子。在麻省理工学院,设计并建造了一个多聚离子源(MIST-1),以产生具有高H2+分数的高强度光束。MIST-1目前在麻省理工学院等离子体科学与聚变中心(PSFC)运行,并处于调试阶段。
First commissioning results of the multicusp ion source at MIT (MIST-1) for H2+
IsoDAR is an experiment under development to search for sterile neutrinos using the isotope Decay-At-Rest (DAR) production mechanism, where protons impinging on 9Be create neutrons which capture on 7Li which then beta-decays producing v¯e. As this will be an isotropic source of v¯e, the primary driver current must be large (10 mA cw) for IsoDAR to have sufficient statistics to be conclusive within 5 years of running. H2+ was chosen as primary ion to overcome some of the space-charge limitations during low energy beam transport and injection into a compact cyclotron. The H2+ will be stripped into protons before the target. At MIT, a multicusp ion source (MIST-1) was designed and built to produce a high intensity beam with a high H2+ fraction. MIST-1 is now operational at the Plasma Science and Fusion Center (PSFC) at MIT and under commissioning.
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