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Velocity-space tomography of MeV-range fast-ion distributions in JET using wave–particle interaction priors

Title: Velocity-space tomography of MeV-range fast-ion distributions in JET using wave–particle interaction priors
Authors: M. Rud; Y. Dong; L.-G. Eriksson; J. Eriksson; P.C. Hansen; O. Hyvärinen; H. Järleblad; Ye.O. Kazakov; D. Moseev; M. Nocente; B.C.G. Reman; A. Snicker; A. Valentini; M. Salewski; JET Contributors
Source: Nuclear Fusion, Vol 65, Iss 11, p 112006 (2025)
Publisher Information: IOP Publishing
Publication Year: 2025
Collection: Directory of Open Access Journals: DOAJ Articles
Subject Terms: fast ions; tomography; wave–particle interactions; JET; Nuclear and particle physics. Atomic energy. Radioactivity; QC770-798
Description: The fast-ion distribution function in fusion plasmas can only be measured indirectly by solving an ill-posed inverse problem. The inversion being ill-posed necessitates regularisation of the problem to ensure that the reconstruction of the fast-ion distribution function depends smoothly on the measurements obtained by fast-ion diagnostics. In turn, the resulting reconstruction depends on the choice of regularisation, and it is therefore beneficial to choose a physics-informed prior as regularisation scheme. In this work, we reconstruct the high-energy tail in the MeV-range of the fast-deuterium distribution in JET discharges heated by waves in the ion cyclotron range of frequencies (ICRF) using neutron and gamma-ray emission spectroscopy. We do this by applying a physics-informed prior based on collision physics and a newly formulated ICRF-physics prior, and we compare these results with numerical simulations and inversions based on a standard Tikhonov regularisation scheme. Our findings suggest that the physics-informed regularisation scheme including the ICRF prior improves the reconstructions compared with standard Tikhonov regularisation. Finally, it is shown that constraining the reconstruction to have negative gradients in the directions of phase space dictated by ICRF physics results in a reconstruction that well resembles expectations based on ICRF physics theory and numerical simulations.
Document Type: article in journal/newspaper
Language: English
Relation: https://doi.org/10.1088/1741-4326/ae1305; https://doaj.org/toc/0029-5515; https://doaj.org/article/f468e381dc214f15a672e6092f5c38d0
DOI: 10.1088/1741-4326/ae1305
Availability: https://doi.org/10.1088/1741-4326/ae1305; https://doaj.org/article/f468e381dc214f15a672e6092f5c38d0
Accession Number: edsbas.26D9309
Database: BASE