Start-to-end simulations are needed for sensitivity stud- ies and online analysis of experimental data of the Plasma Wakefield Acceleration experiment COMB at SPARC_LAB facility, Frascati (Italy). Ad hoc tools are needed for the plasma section modeling. Particle in cell codes are the most widely used tools for this purpose, but they suffer from the considerable amount of computational resources they re- quire. We seek for a simple, portable, quick-to-run approach. For this purpose we introduce a time-explicit cylindrical hybrid fluid-kinetic code: Architect. The beam particles are treated with PIC-like kinetic approach, while the plasma wake is treated as a fluid. Since the number of computational particles used by the hybrid model is significantly reduced with respect of full PIC codes with the same number of di- mensions, the time required for a simulation is reduced as well.
Efficient plasma wakefield acceleration simulations via kinetic-hydro code / Massimo, Francesco; Marocchino, Alberto; Chiadroni, E.; Ferrario, M.; Mostacci, Andrea; Palumbo, Luigi; Rossi, A. R.. - ELETTRONICO. - 1:(2016), pp. 175-177. (Intervento presentato al convegno ICAP2015 tenutosi a Shanghai, Cina nel 12-16 Ottobre 2015) [10.18429/JACoW-ICAP2015-THDWC1].
Efficient plasma wakefield acceleration simulations via kinetic-hydro code
MASSIMO, FRANCESCO;MAROCCHINO, ALBERTO;Chiadroni, E.;MOSTACCI, Andrea;PALUMBO, Luigi;
2016
Abstract
Start-to-end simulations are needed for sensitivity stud- ies and online analysis of experimental data of the Plasma Wakefield Acceleration experiment COMB at SPARC_LAB facility, Frascati (Italy). Ad hoc tools are needed for the plasma section modeling. Particle in cell codes are the most widely used tools for this purpose, but they suffer from the considerable amount of computational resources they re- quire. We seek for a simple, portable, quick-to-run approach. For this purpose we introduce a time-explicit cylindrical hybrid fluid-kinetic code: Architect. The beam particles are treated with PIC-like kinetic approach, while the plasma wake is treated as a fluid. Since the number of computational particles used by the hybrid model is significantly reduced with respect of full PIC codes with the same number of di- mensions, the time required for a simulation is reduced as well.File | Dimensione | Formato | |
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