4D and 5D phase-space tomography using slowing-down physics regularization

Author:

Schmidt B.S.ORCID,Salewski M.ORCID,Moseev D.ORCID,Baquero-Ruiz M.,Hansen P.C.ORCID,Eriksson J.ORCID,Ford O.,Gorini G.,Järleblad H.ORCID,Kazakov Ye O.,Kulla D.ORCID,Lazerson S.ORCID,Mencke J.E.,Mykytchuk D.,Nocente M.ORCID,Poloskei P.ORCID,Rud M.,Snicker A.ORCID,Stagner L.ORCID,Äkäslompolo S.ORCID

Abstract

Abstract We compute reconstructions of 4D and 5D fast-ion phase-space distribution functions in fusion plasmas from synthetic projections of these functions. The fast-ion phase-space distribution functions originating from neutral beam injection (NBI) at TCV and Wendelstein 7-X (W7-X) at full, half, and one-third injection energies can be distinguished and particle densities of each component inferred based on 20 synthetic spectra of projected velocities at TCV and 680 at W7-X. Further, we demonstrate that an expansion into a basis of slowing-down distribution functions is equivalent to regularization using slowing-down physics as prior information. Using this technique in a Tikhonov formulation, we infer the particle density fractions for each NBI energy for each NBI beam from synthetic measurements, resulting in six unknowns at TCV and 24 unknowns at W7-X. Additionally, we show that installing 40 LOS in each of 17 ports at W7-X, providing full beam coverage and almost full angle coverage, produces the highest quality reconstructions.

Publisher

IOP Publishing

Subject

Condensed Matter Physics,Nuclear and High Energy Physics

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