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W3029221034 abstract "Transport of particle beams in plasmas is widely employed in fundamental research, industry, and medicine. Due to the high inertia of ion beams, their transport in plasmas is usually assumed to be stable. Here we report the focusing and flapping of intense slab proton beams transporting through large-scale plasmas by using a recently developed kinetic particle-in-cell simulation code. The beam self-focusing effect in the simulation is prominent and agrees well with previous experiments and theories. Moreover, the beam can curve and flap like turbulence as the beam density increases. Simulation and analysis indicate that the self-generated magnetic fields, produced by movement of collisional plasmas, are the dominant driver of such behaviors. By analyzing the spatial growth rate of magnetic energy and energy deposition of injected proton beams, it is found that the focusing and flapping are significantly determined by the injected beam densities and energies. In addition, a remarkable nonlinear beam energy loss is observed. Our research might find application in inertial confinement fusion and also might be of interest to the laboratory astrophysics community." @default.
W3029221034 created "2020-06-05" @default.
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W3029221034 date "2020-05-26" @default.
W3029221034 modified "2023-10-17" @default.
W3029221034 title "Transport of intense particle beams in large-scale plasmas" @default.
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W3029221034 doi "https://doi.org/10.1103/physreve.101.051203" @default.
W3029221034 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/32575315" @default.
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