论文标题
基于先进的超导射频技术的Higgs-能源Lepton(Helen)对撞机
Higgs-Energy LEptoN (HELEN) Collider based on advanced superconducting radio frequency technology
论文作者
论文摘要
这张雪地2021贡献的论文讨论了基于进步的超导射频技术,$ e^+e^ - $线性对撞机。拟议的对撞机提供成本和交流电源节省,较小的占地面积(相对于ILC),可以在Fermilab建造,并在站点边界内具有相互作用区域。最初的物理运行在250 GEV之后,对撞机可以升级到更高的发光度或更高(高达500 GEV)的能量。如果在日本无法及时实现ILC,那么海伦对撞机将是在美国建造希格斯工厂的可行选择。
This Snowmass 2021 contributed paper discusses a Higgs-Energy LEptoN (HELEN) $e^+e^-$ linear collider based on advances superconducting radio frequency technology. The proposed collider offers cost and AC power savings, smaller footprint (relative to the ILC), and could be built at Fermilab with an Interaction Region within the site boundaries. After the initial physics run at 250 GeV, the collider could be upgraded either to higher luminosity or to higher (up to 500 GeV) energies. If the ILC could not be realized in Japan in a timely fashion, the HELEN collider would be a viable option to build a Higgs factory in the U.S.
