论文标题
部分可观测时空混沌系统的无模型预测
C$^3$ Demonstration Research and Development Plan
论文作者
论文摘要
C $^3 $是实现E $^+$ e $^ - $ collider的机会,用于研究Higgs Boson,以$ \ sqrt {s} = 250 $ GEV进行研究,并在同一短便利设施上保持了550 GEV的定义升级路径。 C $^3 $基于一种从根本上使用新的方法来实现正常导电线性加速器,该方法以相对较低的成本达到高梯度和高效率。鉴于线性撞机设计的高级状态,需要C $^3 $技术成熟的关键系统是Linac的主要。这份白皮书介绍了针对设施的分阶段方法,以展示C $^3 $的技术,并具有直接(源和主利纳克)和并行(光束传递,阻尼环,辅助组件)R&D。白皮书还包括有关技术工业化方法,相关的HEP研发活动的讨论,这些活动由C $^3 $ R&D,基础架构要求和选址选项启用。
C$^3$ is an opportunity to realize an e$^+$e$^-$ collider for the study of the Higgs boson at $\sqrt{s} = 250$ GeV, with a well defined upgrade path to 550 GeV while staying on the same short facility footprint. C$^3$ is based on a fundamentally new approach to normal conducting linear accelerators that achieves both high gradient and high efficiency at relatively low cost. Given the advanced state of linear collider designs, the key system that requires technical maturation for C$^3$ is the main linac. This white paper presents the staged approach towards a facility to demonstrate C$^3$ technology with both Direct (source and main linac) and Parallel (beam delivery, damping ring, ancillary component) R&D. The white paper also includes discussion on the approach for technology industrialization, related HEP R&D activities that are enabled by C$^3$ R&D, infrastructure requirements and siting options.
