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A framework for synthetic diagnostics using energetic-particle orbits in tokamaks

Authors :
Järleblad, H.
Stagner, L.
Salewski, M.
Eriksson, Jacob
Nocente, M.
Schmidt, B. S.
Larsen, M. Rud
Järleblad, H.
Stagner, L.
Salewski, M.
Eriksson, Jacob
Nocente, M.
Schmidt, B. S.
Larsen, M. Rud
Publication Year :
2024

Abstract

In fusion plasma physics, the large-scale trajectories of energetic particles in magnetic confinement devices are known as orbits. To effectively and efficiently be able to work with orbits, the Orbit Weight Computational Framework (OWCF) was developed. The OWCF constitutes a set of scripts, functions and applications capable of computing, visualizing and working with quantities related to fast-ion (FI) orbits in toroidally symmetric fusion devices. The current version is highly integrated with the DRESS code, which enables the OWCF to compute and analyze the orbit sensitivity for arbitrary neutron- and gammadiagnostics. However, the framework is modular in the sense that any future codes (e.g. FIDASIM) can be easily integrated. The OWCF can also compute projected velocity spectra for FI orbits, which play a key role in many FI diagnostics. Via interactive applications, the OWCF can function both as a tool for investigative research but also for teaching. The OWCF will be used to analyze and simulate the diagnostic results of current and future fusion experiments such as ITER. The orbit weight functions computed with the OWCF can be used to reconstruct the FI distribution in terms of FI orbits from experimental measurements using tomographic inversion.

Details

Database :
OAIster
Notes :
application/pdf, English
Publication Type :
Electronic Resource
Accession number :
edsoai.on1428123484
Document Type :
Electronic Resource
Full Text :
https://doi.org/10.1016.j.cpc.2023.108930