Search results for "JET-ILW"

showing 3 items of 3 documents

Erosion and screening of tungsten during inter/intra-ELM periods in the JET-ILW divertor

2020

Abstract Intra-ELM tungsten sources, which dominate the total W source, are quantified in the inner and outer divertor of JET-ILW. The amount of the sputtered W atoms for individual ELMs demonstrates a clear dependence on the ELM frequency. It decreases when the pedestal temperature is lower and, correspondingly, the ELM frequency is higher. Nevertheless, the entire gross erosion W source (the number of eroded W atoms per second due to ELMs) increases initially with ELM frequency and reaches its maximum at fELM ≈ 50–55 Hz followed by its reduction in the high frequency range. The in/out asymmetry of the intra-ELM W sources during ELMs is a critical issue and is investigated in this contribu…

PFCNuclear and High Energy PhysicsMaterials scienceMaterials Science (miscellaneous)media_common.quotation_subjectJET-ILWTungsten erosionchemistry.chemical_elementTungsten01 natural sciencesAsymmetry010305 fluids & plasmasDivertor screening of tungstenPedestal0103 physical sciencesDuct (flow)PSImedia_common010302 applied physicsDivertorlcsh:TK9001-9401Tungsten imaging spectroscopyNuclear Energy and EngineeringchemistryW Divertorlcsh:Nuclear engineering. Atomic powerAtomic physicsddc:624Nuclear Materials and Energy
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Impurity analysis of JET DiMPle pulses

2021

Divertor monitoring pulses (DiMPle) have been run in JET from the C35 campaign onwards. They provide an opportunity to study the impurity contamination of the plasma when it is limited by different surfaces within the machine, as well as the longer term behaviour of the impurities. In these discharges the plasma is first limited on the outer wall, then on the inner wall and, subsequently, in the X-point configuration the outer strike point is positioned on the horizontal tile 5 of the machine followed by tile 6 and then the vertical tile 7. The present study details the impurity behaviour in the DiMPle pulses from JET-ILW campaigns C35 to C38, which ran from 2015 to 2019. The impurities can…

PaperJet (fluid)TokamakMaterials sciencebehaviour on Plasma Facing SurfacesJET-ILWCondensed Matter Physicsimpuritieslaw.inventionNuclear Energy and EngineeringlawDimpleImpuritylong-term impurity behaviourtokamaksAtomic physicsPlasma Physics and Controlled Fusion
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Understanding tungsten erosion during inter/intra-ELM periods in He-dominated JET-ILW plasmas

2021

Tungsten erosion was quantified during inter/intra-ELM periods in He-dominated JET-ILW plasmas by optical emission spectroscopy. The intra-ELM tungsten sputtering in helium plasmas, which dominates the total W source, prevails by a factor of about 4 over inter-ELM sputtering in the investigated ELM frequency range from 90 Hz-120 Hz. He ions are mainly responsible for the W erosion during the ELMs in He plasmas. The strong in/out asymmetry of the ELM-induced W erosion is observed in He plasmas even at high ELM frequencies beyond 100 Hz. In Ohmic/L-mode plasmas and during the H-mode inter-ELM plasma phases both He2+ and Be2+ ionic species are major contributors to the W erosion. Their contrib…

tungsten divertorJet (fluid)Materials scienceJET-ILWchemistry.chemical_elementMechanicsPlasmaTungstenCondensed Matter PhysicsAtomic and Molecular Physics and Opticsoptical emission spectroscopyplasma-material interactionshelium plasmachemistryErosionddc:530tungsten erosionMathematical Physics
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