A gauge-compatible Hamiltonian splitting algorithm for particle-in-cell simulations using finite element exterior calculus

Alexander S. Glasser; Hong Qin

doi:10.1017/S0022377822000290

A gauge-compatible Hamiltonian splitting algorithm for particle-in-cell simulations using finite element exterior calculus

Alexander S. Glasser, Hong Qin

PPPL Computational Science

Research output: Contribution to journal › Article › peer-review

3 Scopus citations

Abstract

A particle-in-cell algorithm is derived with a canonical Poisson structure in the formalism of finite element exterior calculus. The resulting method belongs to the class of gauge-compatible splitting algorithms, which exactly preserve gauge symmetries and their associated conservation laws via the momentum map. We numerically demonstrate this time invariance of the momentum map and its usefulness in establishing precise initial conditions with a desired initial electric field and fixed background charge. The restriction of this canonical, finite element Poisson structure to the 1X2P -dimensional phase space is also considered and simulated numerically.

Original language	English (US)
Article number	835880202
Journal	Journal of Plasma Physics
Volume	88
Issue number	2
DOIs	https://doi.org/10.1017/S0022377822000290
State	Published - Apr 4 2022

All Science Journal Classification (ASJC) codes

Condensed Matter Physics

Keywords

Key word plasma simulation

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10.1017/S0022377822000290

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abstract = "A particle-in-cell algorithm is derived with a canonical Poisson structure in the formalism of finite element exterior calculus. The resulting method belongs to the class of gauge-compatible splitting algorithms, which exactly preserve gauge symmetries and their associated conservation laws via the momentum map. We numerically demonstrate this time invariance of the momentum map and its usefulness in establishing precise initial conditions with a desired initial electric field and fixed background charge. The restriction of this canonical, finite element Poisson structure to the 1X2P -dimensional phase space is also considered and simulated numerically.",

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author = "Glasser, \{Alexander S.\} and Hong Qin",

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AU - Qin, Hong

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AB - A particle-in-cell algorithm is derived with a canonical Poisson structure in the formalism of finite element exterior calculus. The resulting method belongs to the class of gauge-compatible splitting algorithms, which exactly preserve gauge symmetries and their associated conservation laws via the momentum map. We numerically demonstrate this time invariance of the momentum map and its usefulness in establishing precise initial conditions with a desired initial electric field and fixed background charge. The restriction of this canonical, finite element Poisson structure to the 1X2P -dimensional phase space is also considered and simulated numerically.

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M1 - 835880202

ER -

A gauge-compatible Hamiltonian splitting algorithm for particle-in-cell simulations using finite element exterior calculus

Abstract

All Science Journal Classification (ASJC) codes

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