Low-alpha Operation of the Iota Storage Ring

arXiv - PHYS - Accelerator Physics Pub Date : 2024-07-29 DOI:arxiv-2407.20358

M. WallbankFermi National Accelerator Laboratory, Batavia, IL, USA, J. JarvisFermi National Accelerator Laboratory, Batavia, IL, USA

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Abstract

Operation with ultra-low momentum-compaction factor (alpha) is a desirable capability for many storage rings and synchrotron radiation sources. For example, low-alpha lattices are commonly used to produce picosecond bunches for the generation of coherent THz radiation and are the basis of a number of conceptual designs for EUV generation via steady-state microbunching (SSMB). Achieving ultra-low alpha requires not only a high-level of stability in the linear optics but also flexible control of higher-order compaction terms. Operation with lower momentum-compaction lattices has recently been investigated at the IOTA storage ring at Fermilab. A procedure for lowering the ring compaction using the linear optics along with compensations from the higher-order magnets was developed with the aid of a model, and an experimental technique for measuring the momentum compaction was developed. The lowest momentum compaction achieved during the available run-time was $3.4\times10^{-4}$, around 15 times lower than previously operated. These feasibility studies ensure an improved experimental understanding of the IOTA optics and potentially will enable new research programs at the facility.

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Iota 存储环的低阿尔法运行

对于许多存储环和同步辐射源来说，以超低动量压实因子（α）运行是一种理想的能力。例如，低α晶格通常用于产生皮秒束，用于产生相干太赫兹辐射，并且是通过稳态微束（SSMB）产生超紫外光的许多概念设计的基础。在模型的帮助下，利用线性光学和高阶磁铁的补偿，开发了一种降低压实的程序，并开发了一种测量动量压实的实验技术。在可用运行时间内实现的最低动量压实为 3.4times10^{-4}$，比以前运行的低约 15 倍。这些可行性研究确保了对 IOTA 光学设备实验理解的提高，并有可能使该设备开展新的研究项目。

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 - PHYS - Accelerator Physics

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