English

Advanced RF Structures for Wakefield Acceleration and High-Gradient Research

Accelerator Physics 2022-03-25 v3

Abstract

Structure wakefield acceleration (SWFA) is one of the most promising AAC schemes in several recent strategic reports, including DOE's 2016 AAC Roadmap, report on the Advanced and Novel Accelerators for High Energy Physics Roadmap (ANAR), and report on Accelerator and Beam Physics Research Goals and Opportunities. SWFA aims to raise the gradient beyond the limits of conventional radiofrequency (RF) accelerator technology, and thus the RF to beam energy efficiency, by reducing RF breakdowns from confining the microwave energy in a short (on the order of about 10 ns) and intense pulse excited by a drive beam. We envision that the following research topics, within the scope of AF7, are of great interest in the next decade: advanced wakefield structures, terahertz and sub-terahertz (THz) structures, and RF breakdown physics. Research on SWFA in the above directions would directly contribute to long-term large-scale applications, including AAC-based linear colliders and compact light sources. There is also potentially a strong synergy between SWFA and other AAC concepts, when structures are combined with plasmas into hybrid AAC schemes. Research on novel structures is at the core of advancing SWFA, and is critical to future AAC-based linear colliders; at the same, it has a strong synergy with other directions, such as cavity designs, high-power microwave systems and sources, and compact light sources.

Keywords

Cite

@article{arxiv.2203.08374,
  title  = {Advanced RF Structures for Wakefield Acceleration and High-Gradient Research},
  author = {Xueying Lu and Jiahang Shao and John Power and Chunguang Jing and Gwanghui Ha and Philippe Piot and Alexander Zholents and Richard Temkin and Michael Shapiro and Julian Picard and Bagrat Grigoryan and Chuanxiang Tang and Yingchao Du and Jiaru Shi and Hao Zha and Dao Xiang and Emilio Nanni and Brendan O'Shea and Yuri Saveliev and Thomas Pacey and James Rosenzweig and Gerard Andonian and Evgenya Simakov and Francois Lemery and Alex Murokh and Sergey Kutsaev and Alexander Smirnov and Ronald Agustsson and Gongxiaohui Chen and Seunghwan Shin and Ben Freemire},
  journal= {arXiv preprint arXiv:2203.08374},
  year   = {2022}
}

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contribution to Snowmass 2021

R2 v1 2026-06-24T10:15:08.222Z