分析H2 +回旋加速器束流中束气相互作用

Journal of Physics G Pub Date : 2023-10-18 DOI:10.1088/1361-6471/acfe8f

Pedro Calvo, Daniel Winklehner, Concepción Oliver

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引用次数: 1

摘要

摘要针对中微子物理中的同位素静止衰变(IsoDAR)实验(寻找无菌中微子)，我们开发了一种新型的紧凑等时回旋加速器，该回旋加速器通过轴向嵌入RFQ直接注入。为了使IsoDAR在5年的运行中发挥决定性作用，在产生中微子的目标上，需要10毫安的质子和80%占空比的cw。为了减轻回旋加速器驱动器中的空间电荷，我们加速了5ma的h2 +，从回旋加速器中提取出来后分解成10ma的质子。我们在本文中要回答的一个悬而未决的问题是，气体剥离(通过束流离子与加速器中残余气体的相互作用从h2 +中去除电子)带来的束流损失是否会成为一个重大挑战。利用已建立的面向对象并行加速器库代码的新添加功能，我们使用真实的光束分布，磁场，气体成分和压力计算IsoDAR回旋加速器中的气剥离损失。我们表明，在整个加速区域内，为了使解离损失保持在1%以下，至少需要6 × 10−7毫巴的真空。

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Analyzing beam-gas interactions in an H₂ ⁺ cyclotron beam

Abstract For the Isotope Decay At Rest (IsoDAR) experiment in neutrino physics (searching for sterile neutrinos), we have developed a novel compact isochronous cyclotron with direct injection through an axially embedded RFQ. For IsoDAR to be decisive within five years of running, 10 mA of protons, cw at 80% duty factor are needed on a neutrino production target. To alleviate space charge in the cyclotron driver, we accelerate 5 mA of H 2 + , to be broken up into 10 mA of protons after extraction from the cyclotron. An open question that we are answering with this paper is whether the beam losses from gas-stripping (the removal of electrons from H 2 + through the interaction of the beam ions with the residual gas in the accelerator) are going to be a significant challenge. Using a newly added feature to the well-established Object-Oriented Parallel Accelerator Library code, we calculate gas-stripping losses in the IsoDAR cyclotron using realistic beam distributions, magnetic fields, gas composition, and pressure. We show that to maintain losses due to dissociation below 1% over the entire acceleration region, a vacuum of at least 6 × 10 −7 mbar is required.

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Journal of Physics G

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