Abstract
We summarize the conclusions from Working Group 8 of the European Advanced Accelerator Concepts workshop in 2019 (EAAC2019) on the suitability and prospects for using advanced and novel accelerator (ANA) technology for future high-energy physics (HEP) applications. We identify the key technology gaps remaining for the main ANA approaches for building future e+/e− linear colliders and estimate the time scales needed to close them. We also identify synergistic development paths that can be leveraged to achieve key technology demonstration steps through non-HEP applications and through non-lepton-collider HEP applications.
Highlights
We summarize the conclusions from Working Group 8 of the European Advanced Accelerator Concepts workshop in 2019 (EAAC2019) on the suitability and prospects for using advanced and novel accelerator (ANA) technology for future high-energy physics (HEP) applications
We identify synergistic development paths that can be leveraged to achieve key technology demonstration steps through non-HEP applications and through non-lepton-collider HEP applications
Working Group 8 (WG8), Advanced and Novel Accelerators for High Energy Physics, was originated at the EAAC2017 workshop largely to continue the momentum in this topic from the Advanced and Novel Accelerators for High Energy Physics Roadmap (ANAR) Workshop in 2017 [1]
Summary
Working Group 8 (WG8), Advanced and Novel Accelerators for High Energy Physics, was originated at the EAAC2017 workshop largely to continue the momentum in this topic from the Advanced and Novel Accelerators for High Energy Physics Roadmap (ANAR) Workshop in 2017 [1]. The focus of the EAAC2017 WG8 was to help outline the technical and planning path forward to achieving an Advanced Linear International Collider (ALIC) based on advanced and novel accelerator (ANA) technologies. The focus of this workshop’s WG8 has been to evaluate the progress toward developing an ALIC, and its conclusions are summarized in this report. All four approaches have demonstrated GV/m-class gradients, with LPAs and PWAs as high as many tens of GV/m The impact of these technologies to high-energy physics (HEP) was immediately recognized.
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