High Power Laser and Particle Beams, Volume. 36, Issue 3, 033002(2024)
A hierarchical method for verification of particle-in-cell/ Monte Carlo collision modelling on plasma discharges
The verification of scientific computing currently places a strong emphasis on grid discretization methods for systems of deterministic partial differential equations. However, verifying particle-in-cell (PIC) simulations, which employ a particle-mesh method to model discharging plasmas, presents distinctive challenges. Firstly, PIC simulations require discretization not only in time and space but also in macro-particle weights. Secondly, challenges arise regarding the utilization of the discretized particle phase space distribution function for verification purposes. Thirdly, the interpolation of electric fields and charge distribution can significantly impact the overall accuracy of PIC convergence.When PIC methods are integrated with Monte Carlo (MC) methods, discretization and stochastic errors often combine, necessitating Richardson extrapolation in conjunction with ensemble averaging.To tackle these challenges, this paper introduces a hierarchical verification approach. It commences with order-of-accuracy tests for individual particle trajectories, electromagnetic field solvers, and binary-particle collisions. Discretization errors for integrated PIC and MC modules are then evaluated using classical physical models that possess exact solutions, such as space-charge-limited current and Fourier flow in gases. Finally, a code-to-code comparison is performed with benchmark examples of simplified discharge simulations.
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Tianbo Shang, Wei Yang, Mengmeng Song, Qianhong Zhou. A hierarchical method for verification of particle-in-cell/ Monte Carlo collision modelling on plasma discharges[J]. High Power Laser and Particle Beams, 2024, 36(3): 033002
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Received: Sep. 28, 2023
Accepted: Dec. 29, 2023
Published Online: Mar. 20, 2024
The Author Email: Wei Yang (yangwei861212@126.com)