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Main Authors: Bayón-Buján, Borja, Bello-Benítez, Enrique, Zhou, Jiewei, Merino, Mario
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2412.19789
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author Bayón-Buján, Borja
Bello-Benítez, Enrique
Zhou, Jiewei
Merino, Mario
author_facet Bayón-Buján, Borja
Bello-Benítez, Enrique
Zhou, Jiewei
Merino, Mario
contents Collisionless cross-field electron transport in an E x B configuration relevant for electric propulsion is studied using data from a (z, θ) full-PIC simulation. Higher-order spectral analysis shows that transport is dominated by the in-phase interaction of the oscillations of the azimuthal electric field and the electron density associated to the first electron cyclotron drift instability (ECDI) mode. A secondary contribution emanates from a lower-frequency mode, not predicted by linear ECDI theory, while higher modes have a minor direct impact on transport. However, a bicoherence analysis reveals that strong phase couplings exist among the ECDI modes, and a sparse symbolic regression spectral model, based on the three-wave coupling equations, suggests an inverse energy cascade as the most likely explanation, thus suggesting that higher modes contribute indirectly to transport by quadratic power transfer to the first mode. This work provides new insights into the dynamics of anomalous plasma transport in E x B sources and the underlying processes governing energy distribution across different scales, and supports the validity of weak turbulence theory to examine their behavior.
format Preprint
id arxiv_https___arxiv_org_abs_2412_19789
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Data-driven analysis of anomalous transport and three-wave-coupling effects in E x B plasma discharges
Bayón-Buján, Borja
Bello-Benítez, Enrique
Zhou, Jiewei
Merino, Mario
Plasma Physics
Collisionless cross-field electron transport in an E x B configuration relevant for electric propulsion is studied using data from a (z, θ) full-PIC simulation. Higher-order spectral analysis shows that transport is dominated by the in-phase interaction of the oscillations of the azimuthal electric field and the electron density associated to the first electron cyclotron drift instability (ECDI) mode. A secondary contribution emanates from a lower-frequency mode, not predicted by linear ECDI theory, while higher modes have a minor direct impact on transport. However, a bicoherence analysis reveals that strong phase couplings exist among the ECDI modes, and a sparse symbolic regression spectral model, based on the three-wave coupling equations, suggests an inverse energy cascade as the most likely explanation, thus suggesting that higher modes contribute indirectly to transport by quadratic power transfer to the first mode. This work provides new insights into the dynamics of anomalous plasma transport in E x B sources and the underlying processes governing energy distribution across different scales, and supports the validity of weak turbulence theory to examine their behavior.
title Data-driven analysis of anomalous transport and three-wave-coupling effects in E x B plasma discharges
topic Plasma Physics
url https://arxiv.org/abs/2412.19789