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Laser-driven multi-MeV high-purity proton acceleration via anisotropic ambipolar expansion of micron-scale hydrogen clusters

S. Jinno, Masato Kanasaki, Takafumi Asai, Ryutaro Matsui, A. S. Pirozhkov, Koichi Ogura, A. Sagisaka, Yasuhiro Miyasaka, Nobuhiko Nakanii, M. Kando, Nobuko Kitagawa, Kunihiro Morishima, Satoshi Kodaira, Y. Kishimoto, Tomoya Yamauchi, Mitsuru Uesaka, Hiromitsu Kiriyama, Yuji Fukuda

2022Scientific Reports16 citationsDOIOpen Access PDF

Abstract

Multi-MeV high-purity proton acceleration by using a hydrogen cluster target irradiated with repetitive, relativistic intensity laser pulses has been demonstrated. Statistical analysis of hundreds of data sets highlights the existence of markedly high energy protons produced from the laser-irradiated clusters with micron-scale diameters. The spatial distribution of the accelerated protons is found to be anisotropic, where the higher energy protons are preferentially accelerated along the laser propagation direction due to the relativistic effect. These features are supported by three-dimensional (3D) particle-in-cell (PIC) simulations, which show that directional, higher energy protons are generated via the anisotropic ambipolar expansion of the micron-scale clusters. The number of protons accelerating along the laser propagation direction is found to be as high as 1.6 [Formula: see text] [Formula: see text] 10[Formula: see text]/MeV/sr/shot with an energy of 2.8 [Formula: see text] MeV, indicating that laser-driven proton acceleration using the micron-scale hydrogen clusters is promising as a compact, repetitive, multi-MeV high-purity proton source for various applications.

Topics & Concepts

ProtonAmbipolar diffusionPhysicsAccelerationAnisotropyLaserAtomic physicsCluster (spacecraft)HydrogenEnergy (signal processing)IrradiationNuclear physicsComputational physicsPlasmaOpticsQuantum mechanicsComputer scienceProgramming languageClassical mechanicsLaser-Plasma Interactions and DiagnosticsLaser-Matter Interactions and ApplicationsLaser-induced spectroscopy and plasma
Laser-driven multi-MeV high-purity proton acceleration via anisotropic ambipolar expansion of micron-scale hydrogen clusters | Litcius