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Random Batch Particle Methods for the Homogeneous Landau Equation

José A. Carrillo, Shi Jin, Y. Tang

2022Communications in Computational Physics22 citationsDOIOpen Access PDF

Abstract

We consider in this paper random batch particle methods for efficiently solving the homogeneous Landau equation in plasma physics. The methods are stochastic variations of the particle methods proposed by Carrillo et al. [J. Comput. Phys.: X 7: 100066, 2020] using the random batch strategy. The collisions only take place inside the small but randomly selected batches so that the computational cost is reduced to O(N) per time step. Meanwhile, our methods can preserve the conservation of mass, momentum, energy and the decay of entropy. Several numerical examples are performed to validate our methods.

Topics & Concepts

HomogeneousParticle methodStatistical physicsPhysicsConservation of massEntropy (arrow of time)Particle (ecology)Momentum (technical analysis)MathematicsComputer scienceApplied mathematicsMathematical optimizationPlasmaMechanicsQuantum mechanicsEconomicsGeologyOceanographyFinanceStatistical Mechanics and EntropyModel Reduction and Neural NetworksMarkov Chains and Monte Carlo Methods