Michael Carrie scite author profile

Michael Carrie

3Publications

1Citation Statement Received

178Citation Statements Given

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159

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University of Nebraska–Lincoln

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A time-implicit numerical method and benchmarks for the relativistic Vlasov–Ampere equations

Carrie

Shadwick

2016

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We present a time-implicit numerical method to solve the relativistic Vlasov-Ampere system of equations on a two dimensional phase space grid. The time-splitting algorithm we use allows the generalization of the work presented here to higher dimensions keeping the linear aspect of the resulting discrete set of equations. The implicit method is benchmarked against linear theory results for the relativistic Landau damping for which analytical expressions using the Maxwell-J€ uttner distribution function are derived. We note that, independently from the shape of the distribution function, the relativistic treatment features collective behaviours that do not exist in the nonrelativistic case. The numerical study of the relativistic two-stream instability completes the set of benchmarking tests. V

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An unconditionally stable, time-implicit algorithm for solving the one-dimensional Vlasov–Poisson system

Carrie

Shadwick

2022

J. Plasma Phys.

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The development of an implicit, unconditionally stable, numerical method for solving the Vlasov–Poisson system in one dimension using a phase-space grid is presented. The algorithm uses the Crank–Nicolson discretization scheme and operator splitting allowing for direct solution of the finite difference equations. This method exactly conserves particle number, enstrophy and momentum. A variant of the algorithm which does not use splitting also exactly conserves energy but requires the use of iterative solvers. This algorithm has no dissipation and thus fine-scale variations can lead to oscillations and the production of negative values of the distribution function. We find that overall, the effects of negative values of the distribution function are relatively benign. We consider a variety of test cases that have been used extensively in the literature where numerical results can be compared with analytical solutions or growth rates. We examine higher-order differencing and construct higher-order temporal updates using standard composition methods.

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A time-implicit algorithm for solving the Vlasov-Poisson equation

Shadwick

Carrie

2013

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Michael Carrie

A time-implicit numerical method and benchmarks for the relativistic Vlasov–Ampere equations

An unconditionally stable, time-implicit algorithm for solving the one-dimensional Vlasov–Poisson system

A time-implicit algorithm for solving the Vlasov-Poisson equation

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