Ionization balance of impurities in turbulent scrape-off layer plasmas I: local ionization-recombination equilibrium

Guzmán, F.; Marandet, Y.; Tamain, P.; Bufferand, Hugo; Ciraolo, Guido; Ghendrih, Ph.; Guirlet, R.; Rosato, J.; Valentinuzzi, M.

doi:10.1088/0741-3335/57/12/125014

Cited by 6 publications

(4 citation statements)

References 35 publications

(49 reference statements)

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“…The impact of the excursion of plasma parameters around their average due to fluctuation can be taken into account to compute 'fluctuation dressed' cross-section for instance, see [23,24]. However, to use these expressions in practice in a transport code, one needs at least to estimate the level of fluctuations in the plasma.…”

Section: K-epsilon Model For Turbulence Prediction In Transport Modementioning

confidence: 99%

Progress in edge plasma turbulence modelling—hierarchy of models from 2D transport application to 3D fluid simulations in realistic tokamak geometry

et al. 2021

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HAL is a multi-disciplinary open access archive for the deposit and dissemination of scientific research documents, whether they are published or not. The documents may come from teaching and research institutions in France or abroad, or from public or private research centers. L'archive ouverte pluridisciplinaire HAL, est destinée au dépôt et à la diffusion de documents scientifiques de niveau recherche, publiés ou non, émanant des établissements d'enseignement et de recherche français ou étrangers, des laboratoires publics ou privés. Distributed under a Creative Commons Attribution -NonCommercial -NoDerivatives| 4.0 International License

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Section: K-epsilon Model For Turbulence Prediction In Transport Modementioning

confidence: 99%

Progress in edge plasma turbulence modelling—hierarchy of models from 2D transport application to 3D fluid simulations in realistic tokamak geometry

et al. 2021

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“…The average sputtering yields are plotted in figure 2(a), for D on Be and fluctuation levels R ranging from 0 (no fluctuations) to 80%. The effect of fluctuations is reminiscent of that observed on ionization rate coefficients in [22]: significant sputtering occurs at mean temperatures lower than expected because of positive temperature fluctuations. These results are in accordance with figure 1(b) which show that the fluctuation amplification factor F is large at near threshold energies.…”

Section: Sputtered Fluxesmentioning

confidence: 80%

“…All these effects come on top of unavoidable sputtering by energetic neutrals ('charge exchange' neutrals), which are not dealt with here (see [21] for a discussion on the effects of fluctuations on the latter). Finally, it should be noted that similar effects have been studied for the ionization balance of impurities or neutrals [22,23].…”

Section: Introductionmentioning

confidence: 87%

Assessment of the effects of scrape-off layer fluctuations on first wall sputtering with the TOKAM-2D turbulence code

Marandet¹,

Nace²,

Valentinuzzi³

et al. 2016

Plasma Phys. Control. Fusion

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Plasma material interactions on the first wall of future tokamaks such as ITER and DEMO are likely to play an important role, because of turbulent radial transport. The latter results to a large extent from the radial propagation of plasma filaments through a tenuous background. In such a situation, mean field descriptions (on which transport codes rely) become questionable. First wall sputtering is of particular interest, especially in a full W machine, since it has been shown experimentally that first wall sources control core contamination. In ITER, beryllium sources will be one of the important actors in determining the fuel retention level through codeposition. In this work, we study the effect of turbulent fluctuations on mean sputtering yields and fluxes, relying on a new version of the TOKAM-2D code which includes ion temperature fluctuations. We show that fluctuations enhance sputtering at sub-threshold impact energies, by more than an order of magnitude when fluctuation levels are of order unity.

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“…Several groups have implemented neutral models in their code, either in 2D or 3D codes: a simplified kinetic model in GBS and a fluid model in BOUT++ . Moreover, it has been pointed out that additional non‐linearities introduced by neutral particle physics lead to additional closure issues in transport codes, which are difficult to address quantitatively in mean‐field models. Building on the experience gained during the development of Soledge2D‐EIRENE, the TOKAM3X code has been fully coupled to the EIRENE Monte Carlo solver .…”

Section: Introductionmentioning

confidence: 99%

Self‐consistent coupling of the three‐dimensional fluid turbulence code TOKAM3X and the kinetic neutrals code EIRENE

Fan

Marandet

Tamain

et al. 2018

Contributions to Plasma Physics

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The three‐dimensional (3D) turbulence code TOKAM3X‐EIRENE, coupling the 3D non‐isothermal version of TOKAM3X to the EIRENE Monte Carlo solver has been developed with the ability to simulate self‐consistently the interactions between large‐scale flows and turbulence both in limited and diverted plasmas, including recycling. This is especially important for diverted plasmas, where neutrals play a key role and where the recycling source is strongly dominant. The code package relies on the same interface as the Soledge2D‐EIRENE code, which retains state‐of‐the‐art plasma–wall interaction, as well as atomic and molecular physics. In this paper, we present the first results obtained in WEST divertor geometry, in laminar mode, with the aim of verifying the new code package. The divertor density regimes are recovered, and the code results are shown to be consistent with the results of the two‐point model, thus opening the way for turbulent simulations.

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Ionization balance of impurities in turbulent scrape-off layer plasmas I: local ionization-recombination equilibrium

Cited by 6 publications

References 35 publications

Progress in edge plasma turbulence modelling—hierarchy of models from 2D transport application to 3D fluid simulations in realistic tokamak geometry

Progress in edge plasma turbulence modelling—hierarchy of models from 2D transport application to 3D fluid simulations in realistic tokamak geometry

Assessment of the effects of scrape-off layer fluctuations on first wall sputtering with the TOKAM-2D turbulence code

Self‐consistent coupling of the three‐dimensional fluid turbulence code TOKAM3X and the kinetic neutrals code EIRENE

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