Jalo Liljo scite author profile

Jalo Liljo

3Publications

27Citation Statements Received

44Citation Statements Given

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Heinrich Heine University Düsseldorf

Publications

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Three-Dimensional Relativistic Particle-in-Cell Hybrid Code Based on an Exponential Integrator

Tückmantel

Pukhov

Liljo

et al. 2010

IEEE Trans. Plasma Sci.

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In this paper we present a new three dimensional (3D) full electromagnetic relativistic hybrid plasma code H-VLPL (hybrid virtual laser plasma laboratory). The full kinetic particlein-cell (PIC) method is used to simulate low density hot plasmas while the hydrodynamic model applies to the high density cold background plasma. To simulate the linear electromagnetic response of the high density plasma, we use a newly developed form of an exponential integrator method. It allows us to simulate plasmas of arbitrary densities using large time steps. The model reproduces the plasma dispersion and gives correct spatial scales like the plasma skin depth even for large grid cell sizes. We test the hybrid model validity by applying it to some physical examples.

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One-dimensional electromagnetic relativistic PIC-hydrodynamic hybrid simulation code H-VLPL (hybrid virtual laser plasma lab)

Liljo

Karmakar

Pukhov

et al. 2008

Computer Physics Communications

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In this paper we present a new one dimensional full electromagnetic relativistic hybrid plasma model. The full kinetic particle-in cell (PIC) and hydrodynamic model have been combined in the single hybrid plasma code H-VLPL (hybrid virtual laser plasma laboratory). The semi-implicit algorithm allows to simulate plasmas of arbitrary densities via automatic reduction of the highest plasma frequencies down to the numerically stable range. At the same time, the model keeps the correct spatial scales like the plasma skin depth. We discuss the numerically efficient implementation of this model. Further, we carefully test the hybrid model validity by applying it to a series of physical examples. The new mathematical method allows to overcome the typical time step restrictions of explicit PIC codes.

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Three-dimensional relativistic particle-in-cell hybrid code based on an exponential integrator

Tueckmantel¹,

Liljo²,

Pukhov³

et al. 2010

Preprint

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Jalo Liljo

Three-Dimensional Relativistic Particle-in-Cell Hybrid Code Based on an Exponential Integrator

One-dimensional electromagnetic relativistic PIC-hydrodynamic hybrid simulation code H-VLPL (hybrid virtual laser plasma lab)

Three-dimensional relativistic particle-in-cell hybrid code based on an exponential integrator

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