L O Silva scite author profile

There are many astrophysical and laboratory scenarios where kinetic effects play an important role. These range from astrophysical shocks and plasma shell collisions, to high intensity laser-plasma interactions, with applications to fast ignition and particle acceleration. Further understanding of these scenarios requires detailed numerical modelling, but fully relativistic kinetic codes are computationally intensive, and the goal of one-to-one direct modelling of such scenarios and direct comparison with experimental results is still difficult to achieve. In this paper we discuss the issues involved in performing kinetic plasma simulations of experiments and astrophysical scenarios, focusing on what needs to be achieved for one-to-one direct modeling, and the computational requirements involved. We focus on code efficiency and new algorithms, specifically on parallel scalability issues, namely on dynamic load balancing, and on high-order interpolation and boosted frame simulations to optimize simulation performance. We also discuss the new visualization and data mining tools required for these numerical experiments and recent simulation work illustrating these techniques is also presented.

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Petascale particle-in-cell simulations of kinetic effects in inertial fusion energy plasmas

Wen

Tsung

Mori

et al. 2019

Plasma Phys. Control. Fusion

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In this manuscript we describe new features in OSIRIS which allows us to simulate laser plasma interactions relevant to inertial fusion in 2D and quasi-3D. These features will allow for the simulation of laser plasma interactions with ever increasing realism and will finally allow for the quantitative comparison between large 2D/3D simulations and ongoing inertial fusion energy experiments with both kinetic electrons and ions in the near future.

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L O Silva

One-to-one direct modeling of experiments and astrophysical scenarios: pushing the envelope on kinetic plasma simulations

Petascale particle-in-cell simulations of kinetic effects in inertial fusion energy plasmas

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