Ultracold muonium negative ion production

arXiv: Instrumentation and Detectors Pub Date : 2018-06-08 DOI:10.1063/1.5083774

V. Dudnikov, A. Dudnikov

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引用次数: 4

Abstract

A new, efficient method to produce ultracold negative muon ions is proposed. The muonium atom is made up of an antimuon and an electron and is given the chemical symbol Mu. A second electron with binding energy or electron affinity of 0.75 eV makes the Mu- ion, which is in many ways almost identical to the H- ion that is used for charge-exchange injection into most proton particle accelerators. Muonium negative ions were observed in 1987 by interactions of muons with a foil. Using the foil charge-exchange approach, the efficiency of transformation of muons to negative muonium ions has been very low ~10-4. However, by using a hot tungsten or palladium single crystal foil or aerogel treated by cesium deposition, the production efficiency can be improved up to 50%. The process described here has surface muons focused onto a tungsten or palladium single crystal foil or aerogel (that can be heated up to 2000 Celsius) and partially covered by a cesium layer to provide a minimal work function. The negative muon ions can be extracted by a DC electric field and further accelerated by a linac and stripped in a thin foil. Charge exchange with a. dense flow of positive or negative ions is proposed for conversion of slow muonium atoms into positive and negative muonium ions

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超冷介子负离子的产生

提出了一种制备超冷负子离子的新方法。介子原子由一个反介子和一个电子组成，化学符号为Mu。第二个电子的结合能或电子亲和力为0.75 eV，形成Mu-离子，它在许多方面几乎与大多数质子粒子加速器中用于电荷交换注入的H离子相同。1987年通过介子与箔的相互作用观察到介子负离子。使用箔电荷交换方法，μ子向负μ子离子的转化效率非常低，约为10-4。而采用热钨或热钯单晶箔或经铯沉积处理的气凝胶，生产效率可提高50%以上。这里描述的过程将表面μ子聚焦在钨或钯单晶箔或气凝胶(可加热到2000摄氏度)上，并部分覆盖一层铯层，以提供最小的功函数。负介子离子可以用直流电场提取，再用直线加速器加速，并在薄箔中剥离。通过密集的正离子或负离子流动进行电荷交换，可以将慢速μ子原子转化为正负μ子离子

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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arXiv: Instrumentation and Detectors

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