A novel idea is presented in this paper to simulation, design, and feasibility of making a machine in order to produce nitrogen 13 (N-13) at a much lower cost than conventional medical applications. In a plasma focus device, only 0.02% of the generated ions have more than 1 MeV energy. In this paper, using a new idea we have tried to find a solution to increase the energy of deuterium ions to produce N-13. To achieve this, a series of magnetic lenses has been used to focus and guide the ions. To increase the ion energy, a small linear accelerator has been designed using a TM010 waveguide. The accelerator waveguide is also designed and optimized to have the highest impedance matching and maximum power transmission. Eventually, low-energy ions that are transmitted by magnetic lenses accelerate in the waveguide electric field and their energy increases significantly. The collision of these energetic ions with graphite target produce N-13.

中文翻译：

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模拟高密度等离子体聚焦设备以高效生产N-13

本文提出了一种新颖的想法，用于模拟，设计和制造机器的可行性，以便以比传统医疗应用低得多的成本生产氮气13（N-13）。在等离子体聚焦装置中，只有0.02％的生成离子具有1 MeV以上的能量。在本文中，我们采用了新的思路，试图找到一种增加氘离子产生N-13能量的解决方案。为了实现这一点，已使用一系列磁性透镜聚焦和引导离子。为了增加离子能量，使用TM 010设计了小型线性加速器波导。加速器波导也经过了设计和优化，以具有最高的阻抗匹配和最大的功率传输。最终，由磁透镜传输的低能离子在波导电场中加速，其能量显着增加。这些高能离子与石墨靶的碰撞产生N-13。