Compact laser wakefield acceleration toward high energy with micro-plasma parabola

IF 4.8 1区 物理与天体物理 Q1 PHYSICS, MULTIDISCIPLINARY
Xuesong Geng, Tongjun Xu, Lingang Zhang, Igor Kostyukov, Alexander Pukhov, Baifei Shen, Liangliang Ji
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Abstract

Laser wakefield acceleration (LWFA) promises compact accelerators toward the high-energy frontier. However, the approach to the 100 GeV milestone faces the obstacle of the long focal length required for optimal acceleration with high-power lasers, which reaches hundreds of meters for 10–100 PW lasers. The long focal length originates from optimal laser intensity required to avoid nonlinear effects and hence large spot size and Rayleigh length. We propose a “telescope” geometry in which a micro-plasma parabola (MPP) is coupled with a short-focal-length off-axis parabola, minimizing the focal length to the meter range for LWFA under optimized conditions driven by lasers beyond 1 PW. Full-dimensional kinetic simulations demonstrate the generation of a 9 GeV electron bunch within only 1 m optical length—only one-tenth of that required with the conventional approach with the same performance. The proposed MPP provides a basis for the construction of compact LWFAs toward single-stage 100 GeV acceleration with 100 PW class lasers.
利用微等离子体抛物线实现高能量的紧凑型激光汪场加速
激光磁场加速(LWFA)是迈向高能前沿的紧凑型加速器。然而,接近 100 GeV 的里程碑面临着高功率激光器优化加速所需的长焦距障碍,10-100 PW 激光器的焦距可达数百米。长焦距源于避免非线性效应所需的最佳激光强度,因此需要大光斑尺寸和瑞利长度。我们提出了一种 "望远镜 "几何形状,其中微等离子体抛物线 (MPP) 与短焦距离轴抛物线耦合,在 1 PW 以上激光器驱动的优化条件下,将焦距最小化到 LWFA 的米级范围。全维动力学模拟证明,在相同性能的情况下,只需 1 米光长就能产生 9 GeV 电子束,而这只是传统方法所需光长的十分之一。所提出的 MPP 为建造紧凑型 LWFA 提供了基础,以便利用 100 PW 级激光器实现单级 100 GeV 加速。
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来源期刊
Matter and Radiation at Extremes
Matter and Radiation at Extremes Physics and Astronomy-Atomic and Molecular Physics, and Optics
CiteScore
8.60
自引率
9.80%
发文量
160
审稿时长
15 weeks
期刊介绍: Matter and Radiation at Extremes (MRE), is committed to the publication of original and impactful research and review papers that address extreme states of matter and radiation, and the associated science and technology that are employed to produce and diagnose these conditions in the laboratory. Drivers, targets and diagnostics are included along with related numerical simulation and computational methods. It aims to provide a peer-reviewed platform for the international physics community and promote worldwide dissemination of the latest and impactful research in related fields.
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