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The development of the designs of the superconducting CH cavities of the HELIAC project from CH0 [27] to CH1 and CH2 [1] has undergone permanent improvements and adaptations based on the learned experiences of each previous cavity. For example, the design of CH1 and CH2 focused on mechanical stabilization and optimization of performance by minimizing peak electric and magnetic fields. As a result, the changes made there were already able to increase stability and performance compared to CH0 by simplifying the design in different ways. The process of designing both cavities was time reasonable, since they are identical in construction and thus only one design had to be developed. However, for both the development and manufacturing of an entire accelerator of individual CH cavities, this type of design would become too time consuming and costly. In order to reduce this time-consuming design process and accelerate the fabrication of superconducting CH cavities, and also reduce costs, a modular cavity design for mass production of superconducting CH cavities was developed as presented in this thesis. In the following section, the conclusions gained in this work and the results already presented will be summarized once again.
So in the first chapters of this thesis the theoretical foundations were laid, which are necessary for the description of superconducting cavities and for their development process, like a theoretical description of superconductivity itself (see chapter 2), the physical basics of RF-acceleration and of the CH cavity (see chapter 3), but also the effects that limit the superconducting cavities in terms of acceleration (see chapter 4) or the properties and laws from structural mechanics needed in later measurements and simulation (see chapter 5). Based on the theoretical foundations given in these sections, all measurements, evaluations and simulations made in the following sections were made.