Litcius/Paper detail

Resolving the fast ion distribution from imaging neutral particle analyzer measurements

Xiaodi Du, M. A. Van Zeeland, W. W. Heidbrink, L. Stagner, A. Wingen, D. Lin, C. Collins

2020Nuclear Fusion21 citationsDOIOpen Access PDF

Abstract

A recently developed imaging neutral particle analyzer (INPA) on the DIII-D tokamak (Du 2018 <em>Nucl. Fusion</em> <B>58</B> 082006) enables fast ion velocity-space tomography of high fidelity at the interrogated phase space. To accomplish this, the spatial and energy depending fast (<em>E</em> &lt; 80 keV) neutral flux towards the INPA stripping foils is calculated with FIDASIM and a newly developed code INPASIM simulates the INPA instrumental response to this neutral flux. Included in INPASIM is the neutral-foil interaction, the Larmor orbit tracing between the foil and the phosphor, the phosphor response to the incident ion flux as well as camera focusing. Benefiting from heavy, localized velocity-space weights and excellent signal to noise, computed tomography using the Ridge regression method is able to successfully reconstruct fine-scale velocity-space structures produced by multiple neutral beams separated by as small as ~3 keV in tests. Applying the inversion method to a sawtooth crash event reveals a significant profile flattening of confined passing particles across <em>q</em> = 1 flux surface, as well as a redistribution of fast ions into the trapped orbits at the plasma edge close to the last closed flux surface.

Topics & Concepts

Neutral particlePhysicsIonComputational physicsAtomic physicsPhase spaceOpticsPlasmaNuclear physicsThermodynamicsQuantum mechanicsMagnetic confinement fusion researchNuclear Physics and ApplicationsFusion materials and technologies
Resolving the fast ion distribution from imaging neutral particle analyzer measurements | Litcius