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Accurate simulation of direct laser acceleration in a laser wakefield accelerator

https://doi.org/10.1063/5.0152383

Miller, Kyle G. ; Palastro, John P. ; Shaw, Jessica L. ; Li, Fei ; Tsung, Frank S. ; Decyk, Viktor K. ; Joshi, C. ; Mori, Warren B. ( July 2023 , Physics of Plasmas)

In a laser wakefield accelerator (LWFA), an intense laser pulse excites a plasma wave that traps and accelerates electrons to relativistic energies. When the pulse overlaps the accelerated electrons, it can enhance the energy gain through direct laser acceleration (DLA) by resonantly driving the betatron oscillations of the electrons in the plasma wave. The traditional particle-in-cell (PIC) algorithm, although often the tool of choice to study DLA, contains inherent errors due to numerical dispersion and the time staggering of the electric and magnetic fields. Furthermore, conventional PIC implementations cannot reliably disentangle the fields of the plasma wave and laser pulse, which obscures interpretation of the dominant acceleration mechanism. Here, a customized field solver that reduces errors from both numerical dispersion and time staggering is used in conjunction with a field decomposition into azimuthal modes to perform PIC simulations of DLA in an LWFA. Comparisons with traditional PIC methods, model equations, and experimental data show improved accuracy with the customized solver and convergence with an order-of-magnitude fewer cells. The azimuthal-mode decomposition reveals that the most energetic electrons receive comparable energy from DLA and LWFA.
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Free, publicly-accessible full text available July 1, 2024
Ultrabright Electron Bunch Injection in a Plasma Wakefield Driven by a Superluminal Flying Focus Electron Beam

https://doi.org/10.1103/PhysRevLett.128.174803

Li, F. ; Dalichaouch, T. N. ; Pierce, J. R. ; Xu, X. ; Tsung, F. S. ; Lu, W. ; Joshi, C. ; Mori, W. B. ( April 2022 , Physical Review Letters)

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Perspectives on the generation of electron beams from plasma-based accelerators and their near and long term applications

https://doi.org/10.1063/5.0004039

Joshi, C. ; Corde, S. ; Mori, W. B. ( July 2020 , Physics of Plasmas)
null (Ed.)
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Predominant contribution of direct laser acceleration to high-energy electron spectra in a low-density self-modulated laser wakefield accelerator

https://doi.org/10.1103/PhysRevAccelBeams.24.011302

King, P. M. ; Miller, K. ; Lemos, N. ; Shaw, J. L. ; Kraus, B. F. ; Thibodeau, M. ; Hegelich, B. M. ; Hinojosa, J. ; Michel, P. ; Joshi, C. ; et al ( January 2021 , Physical Review Accelerators and Beams)
null (Ed.)
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Experimental signatures of direct-laser-acceleration-assisted laser wakefield acceleration

Shaw, J.L. ; Lemos, N. ; Marsh, K.A. ; Froula, D.H. ; and Joshi, C. ( February 2018 , Plasma physics and controlled fusion)

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Experimental signatures of direct-laser-acceleration-assisted laser wakefield acceleration

https://doi.org/10.1088/1361-6587/aaade1

Shaw, J L ; Lemos, N ; Marsh, K A ; Froula, D H ; Joshi, C ( April 2018 , Plasma Physics and Controlled Fusion)

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X-ray analysis methods for sources from self-modulated laser wakefield acceleration driven by picosecond lasers

https://doi.org/10.1063/1.5082965

King, P. M. ; Lemos, N. ; Shaw, J. L. ; Milder, A. L. ; Marsh, K. A. ; Pak, A. ; Hegelich, B. M. ; Michel, P. ; Moody, J. ; Joshi, C. ; et al ( March 2019 , Review of Scientific Instruments)

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High quality electron bunch generation using a longitudinal density-tailored plasma-based accelerator in the three-dimensional blowout regime

Xu, X.L. ; Li, F. ; An, W. ; Dalichaouch, T.N. ; Yu, P. ; Lu, W. ; Joshi, C. ; and Mori, W.B. ( November 2017 , Physical review special topics. Accelerators and beams)

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Bremsstrahlung hard x-ray source driven by an electron beam from a self-modulated laser wakefield accelerator

Lemos, N. ; Albert, F. ; Shaw, J.L. ; Papp, D. ; Polanek, R. ; King, P. ; Milder, A.L. ; Marsh, K.A. ; Pak, A. ; Pollock, B.B. ; et al ( March 2018 , Plasma physics and controlled fusion)

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Plasma wakefield acceleration experiments at FACET II

Joshi, C. ; Adli, E. ; An, W. ; Clayton, C.E. ; Corde, S. ; Gessner, S. ; Hogan, M.J. ; Litos, M. ; Lu, W. ; Marsh, K.A. ; et al ( January 2018 , Plasma physics and controlled fusion)

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