6533b82cfe1ef96bd128eadf
RESEARCH PRODUCT
Understanding tungsten erosion during inter/intra-ELM periods in He-dominated JET-ILW plasmas
E. R. SolanoD. DouaiEwa PawelecPh. MertensSheena MenmuirM. SertoliI. BorodkinaS. BrezinsekDavid TskhakayaChristian LinsmeierA. G. MeigsE. DelabieDmitriy V. BorodinJ. MaillouxM. BaruzzoPedro CarvalhoGennady SergienkoJuri RomazanovV. HuberS. AleiferisK. D. LawsonA. KirschnerA. HuberA. Shawsubject
tungsten divertorJet (fluid)Materials scienceJET-ILWchemistry.chemical_elementMechanicsPlasmaTungstenCondensed Matter PhysicsAtomic and Molecular Physics and Opticsoptical emission spectroscopyplasma-material interactionshelium plasmachemistryErosionddc:530tungsten erosionMathematical Physicsdescription
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 contribution depends on the electron temperature in the divertor: For Te > 15 eV both species cause significant W sputtering, for Te < 15 eV, Be2+ ions are solely responsible for the W erosion. Tungsten erosion during in both inter and intra-ELM periods in He-dominated plasmas are significantly larger than in deuterium plasmas. It is 15-25 times larger during the inter-ELM phase and in L-mode discharges at Te = 25-30 eV. On the other hand, the ELM-induced W source is by a factor of 3 larger than in D plasmas.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2021-10-06 |