摘要
In this paper,we propose a novel stacked laser dielectric acceleration structure.This structure is based on the inverse Cherenkov effect and represented by a parametric design formulation.Compared to existing dielectric laser accelerators relying on the inverse Smith–Purcell effect,the proposed structure provides an extended-duration synchronous acceleration field without requiring the pulse front tilting technique.This advantage significantly reduces the required pulse duration.In addition,the easy to integrate layered structure facilitates cascade acceleration,and simulations have shown that low-energy electron beams can be cascaded through high gradients over extended distances.These practical advantages demonstrate the potential of this new structure for future chip accelerators.
基金
the National Natural Science Foundation of China(Nos.12004353,11975214,11991071,11905202,and 12174350)
Key Laboratory Foundation of the Sciences and Technology on Plasma Physics Laboratory(No.6142A04200103)
Independent Scientific Research(No.JCKYS2021212011).
