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High-Flux Neutron Generator Based on Laser-Driven Collisionless Shock Acceleration

Y. L. Yao, Shukai He, Zhu Lei, T. Ye, Y. Xie, Zhigang Deng, Bo Cui, Wei Qi, Lei Yang, Shaoping Zhu, X. T. He, Weimin Zhou, B. Qiao

2023Physical Review Letters17 citationsDOI

Abstract

A novel compact high-flux neutron generator with a pitcher-catcher configuration based on laser-driven collisionless shock acceleration (CSA) is proposed and experimentally verified. Different from those that previously relied on target normal sheath acceleration (TNSA), CSA in nature favors not only acceleration of deuterons (instead of hydrogen contaminants) but also increasing of the number of deuterons in the high-energy range, therefore having great advantages for production of high-flux neutron source. The proof-of-principle experiment has observed a typical CSA plateau feature from 2 to 6 MeV in deuteron energy spectrum and measured a forward neutron flux with yield 6.6×10^{7} n/sr from the LiF catcher target, an order of magnitude higher than the compared TNSA case, where the laser intensity is 10^{19} W/cm^{2}. Self-consistent simulations have reproduced the experimental results and predicted that a high-flux forward neutron source with yield up to 5×10^{10} n/sr can be obtained when laser intensity increases to 10^{21} W/cm^{2} under the same laser energy.

Topics & Concepts

PhysicsDeuteriumAtomic physicsNeutronAccelerationEnergy (signal processing)Intensity (physics)Flux (metallurgy)Generator (circuit theory)LaserNeutron fluxShock (circulatory)Neutron generatorNuclear physicsNeutron sourceOpticsMaterials scienceQuantum mechanicsPower (physics)MetallurgyMedicineInternal medicineLaser-Plasma Interactions and DiagnosticsNuclear Physics and ApplicationsHigh-pressure geophysics and materials
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