A fully implicit, conservative, non-linear, electromagnetic hybrid particle-ion/fluid-electron algorithm

The quasi-neutral hybrid model with kinetic ions and fluid electrons is a promising approach for bridging the inherent multi-scale nature of many problems in space and laboratory plasmas. Here, a novel, implicit, particle-in-cell based scheme for the hybrid model is derived for fully 3D electromagne...

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Published inJournal of computational physics Vol. 376; pp. 597 - 616
Main Authors Stanier, A., Chacón, L., Chen, G.
Format Journal Article
LanguageEnglish
Published Cambridge Elsevier Inc 01.01.2019
Elsevier Science Ltd
Subjects
Algorithms
Computational physics
Conservative
Electromagnetism
Electrons
Energy conservation
Finite element method
Finite grid instability
Hybrid
Implicit
Interpolation
Noise reduction
Particle in cell technique
Particle-in-cell
Plasma
Plasmas (physics)
Shape functions
Stability
Three dimensional models
Hybrid
Plasma
Implicit
Finite grid instability
Particle-in-cell
Conservative
Online AccessGet full text
ISSN0021-9991
1090-2716
1090-2716
DOI10.1016/j.jcp.2018.09.038

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Abstract The quasi-neutral hybrid model with kinetic ions and fluid electrons is a promising approach for bridging the inherent multi-scale nature of many problems in space and laboratory plasmas. Here, a novel, implicit, particle-in-cell based scheme for the hybrid model is derived for fully 3D electromagnetic problems with multiple ion species, which features global mass, momentum and energy conservation. The scheme includes sub-cycling and orbit-averaging for the ions, with cell-centered finite differences and implicit midpoint time advance. To reduce discrete particle noise, the scheme allows arbitrary-order shape functions for the particle-mesh interpolations and the application of conservative binomial smoothing. The algorithm is verified for a number of test problems to demonstrate the correctness of the implementation, the unique conservation properties, and the favorable stability properties of the new scheme. In particular, there is no indication of unstable growth of the finite-grid instability for a population of cold ions drifting through a uniform spatial mesh, in a set-up where several commonly used non-conservative schemes are highly unstable. •A novel, conservative particle-in-cell based scheme for the hybrid (kinetic ion and fluid electron) plasma model.•Extended for multi-scale simulations using sub-cycling and orbit-averaging of kinetic ions.•No indication of finite-grid instability (present in non-conservative schemes) for cold ion beam moving through spatial grid.
AbstractList The quasi-neutral hybrid model with kinetic ions and fluid electrons is a promising approach for bridging the inherent multi-scale nature of many problems in space and laboratory plasmas. Here, a novel, implicit, particle-in-cell based scheme for the hybrid model is derived for fully 3D electromagnetic problems with multiple ion species, which features global mass, momentum and energy conservation. The scheme includes sub-cycling and orbit-averaging for the ions, with cell-centered finite differences and implicit midpoint time advance. To reduce discrete particle noise, the scheme allows arbitrary-order shape functions for the particle-mesh interpolations and the application of conservative binomial smoothing. The algorithm is verified for a number of test problems to demonstrate the correctness of the implementation, the unique conservation properties, and the favorable stability properties of the new scheme. In particular, there is no indication of unstable growth of the finite-grid instability for a population of cold ions drifting through a uniform spatial mesh, in a set-up where several commonly used non-conservative schemes are highly unstable. •A novel, conservative particle-in-cell based scheme for the hybrid (kinetic ion and fluid electron) plasma model.•Extended for multi-scale simulations using sub-cycling and orbit-averaging of kinetic ions.•No indication of finite-grid instability (present in non-conservative schemes) for cold ion beam moving through spatial grid.
The quasi-neutral hybrid model with kinetic ions and fluid electrons is a promising approach for bridging the inherent multi-scale nature of many problems in space and laboratory plasmas. Here, a novel, implicit, particle-in-cell based scheme for the hybrid model is derived for fully 3D electromagnetic problems with multiple ion species, which features global mass, momentum and energy conservation. The scheme includes sub-cycling and orbit-averaging for the ions, with cell-centered finite differences and implicit midpoint time advance. To reduce discrete particle noise, the scheme allows arbitrary-order shape functions for the particle-mesh interpolations and the application of conservative binomial smoothing. The algorithm is verified for a number of test problems to demonstrate the correctness of the implementation, the unique conservation properties, and the favorable stability properties of the new scheme. In particular, there is no indication of unstable growth of the finite-grid instability for a population of cold ions drifting through a uniform spatial mesh, in a set-up where several commonly used non-conservative schemes are highly unstable.
Author Chacón, L.
Stanier, A.
Chen, G.
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Snippet The quasi-neutral hybrid model with kinetic ions and fluid electrons is a promising approach for bridging the inherent multi-scale nature of many problems in...
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SubjectTerms Algorithms
Computational physics
Conservative
Electromagnetism
Electrons
Energy conservation
Finite element method
Finite grid instability
Hybrid
Implicit
Interpolation
Noise reduction
Particle in cell technique
Particle-in-cell
Plasma
Plasmas (physics)
Shape functions
Stability
Three dimensional models
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Title A fully implicit, conservative, non-linear, electromagnetic hybrid particle-ion/fluid-electron algorithm
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