The original paper is in English. Non-English content has been machine-translated and may contain typographical errors or mistranslations. ex. Some numerals are expressed as "XNUMX".
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The original paper is in English. Non-English content has been machine-translated and may contain typographical errors or mistranslations. Copyrights notice
Pour les simulations de plasma, nous avons développé un code de particules dans une cellule orienté objet unidimensionnel (1d) pour les postes de travail Unix basés sur X11 (XOOPIC) en modifiant la version bidimensionnelle actuelle qui a été initialement développée par PTSG (Théorie et simulation du plasma). groupe) à l’Université de Californie à Berkeley. Nous avons implémenté une résolution de champ simplifiée et un dépôt de courant dans le code. Nous avons retenu trois composantes de la vitesse des particules, bien que la variation spatiale de la position des particules et des composantes du champ soit limitée à une seule dimension. Pour vérifier le fonctionnement du code 1d, nous effectuons des simulations avec des modèles typiques tels que le modèle de courant de Child-Langmuir et la propagation des ondes électromagnétiques dans le plasma. Dans les deux cas, les résultats de la simulation sont quantitativement en accord avec la théorie.
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Hideyuki USUI, John P. VERBONCOEUR, Charles K. BIRDSALL, "Development of 1D Object-Oriented Particle-in-Cell Code (1d-XOOPIC)" in IEICE TRANSACTIONS on Electronics,
vol. E83-C, no. 6, pp. 989-992, June 2000, doi: .
Abstract: For plasma simulations, we developed a one-dimensional (1d) Object-Oriented Particle-in-Cell code for X11-based Unix workstations (XOOPIC) by modifying the current two-dimensional version which was originally developed by PTSG (Plasma theory and simulation group) in the University of California at Berkeley. We implemented a simplified field solve and current deposition in the code. We retained three components of particle velocity, although the spatial variation for particle position and field components is limited to one dimension. To verify the function of the 1d code, we perform simulations with typical models such as the Child-Langmuir current model and electromagnetic wave propagation in plasma. In both cases, the simulation results quantitatively agree with the theory.
URL: https://global.ieice.org/en_transactions/electronics/10.1587/e83-c_6_989/_p
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@ARTICLE{e83-c_6_989,
author={Hideyuki USUI, John P. VERBONCOEUR, Charles K. BIRDSALL, },
journal={IEICE TRANSACTIONS on Electronics},
title={Development of 1D Object-Oriented Particle-in-Cell Code (1d-XOOPIC)},
year={2000},
volume={E83-C},
number={6},
pages={989-992},
abstract={For plasma simulations, we developed a one-dimensional (1d) Object-Oriented Particle-in-Cell code for X11-based Unix workstations (XOOPIC) by modifying the current two-dimensional version which was originally developed by PTSG (Plasma theory and simulation group) in the University of California at Berkeley. We implemented a simplified field solve and current deposition in the code. We retained three components of particle velocity, although the spatial variation for particle position and field components is limited to one dimension. To verify the function of the 1d code, we perform simulations with typical models such as the Child-Langmuir current model and electromagnetic wave propagation in plasma. In both cases, the simulation results quantitatively agree with the theory.},
keywords={},
doi={},
ISSN={},
month={June},}
Copier
TY - JOUR
TI - Development of 1D Object-Oriented Particle-in-Cell Code (1d-XOOPIC)
T2 - IEICE TRANSACTIONS on Electronics
SP - 989
EP - 992
AU - Hideyuki USUI
AU - John P. VERBONCOEUR
AU - Charles K. BIRDSALL
PY - 2000
DO -
JO - IEICE TRANSACTIONS on Electronics
SN -
VL - E83-C
IS - 6
JA - IEICE TRANSACTIONS on Electronics
Y1 - June 2000
AB - For plasma simulations, we developed a one-dimensional (1d) Object-Oriented Particle-in-Cell code for X11-based Unix workstations (XOOPIC) by modifying the current two-dimensional version which was originally developed by PTSG (Plasma theory and simulation group) in the University of California at Berkeley. We implemented a simplified field solve and current deposition in the code. We retained three components of particle velocity, although the spatial variation for particle position and field components is limited to one dimension. To verify the function of the 1d code, we perform simulations with typical models such as the Child-Langmuir current model and electromagnetic wave propagation in plasma. In both cases, the simulation results quantitatively agree with the theory.
ER -