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Multistage ion acceleration in finite overdense target with a relativistic laser pulse
“Multistage ion acceleration” has been analytically and computationally studied in the relativistic regime. For non-relativistic piston velocities, this phenomenon has been described before. But, as we go to relativistic piston velocities, the non-relativistic results hold no more. We have presented...
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Published in: | Physics of plasmas 2013-07, Vol.20 (7), p.73116 |
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container_title | Physics of plasmas |
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creator | Sinha, Ujjwal |
description | “Multistage ion acceleration” has been analytically and computationally studied in the relativistic regime. For non-relativistic piston velocities, this phenomenon has been described before. But, as we go to relativistic piston velocities, the non-relativistic results hold no more. We have presented a fully relativistic calculation for second stage ion velocities and energies. To verify our calculations, we performed a fully relativistic 1D3V particle in cell simulations using the code LPIC++. It has been found that the relativistic calculations matched very well with the simulation results. Also, it has been seen that at relativistic piston velocities, the non-relativistic results differed by a significant margin. The feasibility of this process has been further established by three dimensional particle in cell simulations. |
doi_str_mv | 10.1063/1.4817026 |
format | article |
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For non-relativistic piston velocities, this phenomenon has been described before. But, as we go to relativistic piston velocities, the non-relativistic results hold no more. We have presented a fully relativistic calculation for second stage ion velocities and energies. To verify our calculations, we performed a fully relativistic 1D3V particle in cell simulations using the code LPIC++. It has been found that the relativistic calculations matched very well with the simulation results. Also, it has been seen that at relativistic piston velocities, the non-relativistic results differed by a significant margin. The feasibility of this process has been further established by three dimensional particle in cell simulations.</abstract><cop>United States</cop><doi>10.1063/1.4817026</doi></addata></record> |
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subjects | 70 PLASMA PHYSICS AND FUSION TECHNOLOGY L CODES LASERS PLASMA ACCELERATION PLASMA SIMULATION PULSES RELATIVISTIC PLASMA THREE-DIMENSIONAL CALCULATIONS VELOCITY |
title | Multistage ion acceleration in finite overdense target with a relativistic laser pulse |
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