Kinetic modeling of the plasma–wall interaction in the DTT divertor region

A precise estimate of the local energy fluxes and erosion profiles at the divertor monoblocks of a fusion reactor requires a kinetic modeling of the plasma–wall interaction. Here, a two-dimensional Particle-in-Cell code is used to quantify the particle and energy fluxes and ion impact distribution f...

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Published in:Plasma physics and controlled fusion 2024-02, Vol.66 (2), p.25015
Main Authors: Cichocki, F, Innocente, P, Sciortino, V, Minelli, P, Taccogna, F
Format: Article
Language:English
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divertor
DTT
kinetic effects
PIC
plasma–wall interaction
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container_issue 2
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container_title Plasma physics and controlled fusion
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creator Cichocki, F
Innocente, P
Sciortino, V
Minelli, P
Taccogna, F
description A precise estimate of the local energy fluxes and erosion profiles at the divertor monoblocks of a fusion reactor requires a kinetic modeling of the plasma–wall interaction. Here, a two-dimensional Particle-in-Cell code is used to quantify the particle and energy fluxes and ion impact distribution functions across the divertor monoblocks of the ‘Divertor Tokamak Test’ reactor, focusing on poloidal gaps with toroidal bevelling. The considered critical locations are close to the strike points at both Inner and Outer Vertical Targets. A worst-case scenario for particle fluxes corresponding to attached plasma conditions and featuring a single-null magnetic configuration is assumed. The separate and cumulative effects of including electron wall emission and ions/electrons collisions with a background neutral gas (recycled at the walls) are also assessed. It is found that a non-negligible energy flux affects the shadowed regions of the monoblocks, especially when accounting for collisions, and that the ion impact distribution functions are strongly influenced by the considered kinetic effects, with important implications on the induced sputtering yield.
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subjects divertor
DTT
kinetic effects
PIC
plasma–wall interaction
title Kinetic modeling of the plasma–wall interaction in the DTT divertor region
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