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Física
OPS
[Open Plasma Science]
OPS
Open Plasma Science
Creada en 2023, Open Plasma Science es una revista revisada por pares y financiada por la Université de Lorraine. Publica artículos en inglés sobre la ciencia del plasma en el sentido más amplio, desde los plasmas de fusión hasta los plasmas de descarga de alta y baja presión, desde las interacciones plasma-superficie o plasma-líquido hasta la turbulencia en los plasmas, desde la propulsión hasta los procesos de fabricación que utilizan plasmas.
- Directora de publicación: Hélène Boulanger
- Redactor en jefe: Jérôme Moritz
- Tipo de soporte: electrónico
- Periodicidad: sobre la marcha
- Año de creación: 2023
- eISSN: 3076-1468
- Fecha de publicación en Episciences: 2023
- Disciplinas: física del plasma
- Idiomas de publicación: inglés
- Procedimiento de evaluación: evaluación simple ciega
- Licencia CC BY 4.0
- Editor: Université de Lorraine
- Dirección postal: Institut Jean Lamour, Campus Artem, 2 allée André Guinier, BP 50840, 54011 Nancy Cedex
- País: Francia
- Contacto: ops AT episciences.org
Últimos artículos
Update of the integrated flight simulator for ASDEX Upgrade
We present the latest updates of the flight simulator of ASDEX Upgrade (AUG), 'Fenix AUG'. Fenix AUG contains simplified models for both the plasma physics and the device operation. The updated version is split into three independent repositories and has been integrated into Docker containers for better management and deployment. The device models can now directly import their configuration from the AUG control system. Although the physics models can be fine tuned to each case, the default settings have been set up to run a large variety of experiments without the need of case-to-case adaptation. Together, the enhancements make Fenix AUG a versatile tool that can be applied to a wide range of applications 'out-of-the-box', such as: to compare simple physics models to the experiment, to assess new controllers within the framework of the existing ones, or, to verify that a planned discharge will follow expected trajectories and will not run into machine or safety limits. An example of each application is showcased to highlight some strengths and limitations of the simulator.
Pierre David
April 08, 2025
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FEQIS: A free-boundary equilibrium solver for integrated modeling of tokamak plasmas
A new axisymmetric equilibrium solver has been written, called FEQIS (Flexible EQuIlibrium Solver), which purpose is to be used inside integrated modeling of tokamak plasmas. The FEQIS code solves the Grad-Shafranov equation and the "circuit" equations for the external coils and passive conducting structures that are toroidally connected. The code has been specifically equipped with flexibility in choice of circuit connections, and a stripped-down numerical scheme for the solution of the Grad-Shafranov equation through a structure of multi-level simplifications which can be tested against the required accuracy.
E. Fable
February 24, 2025
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