SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3128509020> ?p ?o ?g. }

Showing items 1 to 70 of 70 with 100 items per page.

W3128509020 abstract "A tritium (T) campaign is planned in preparation for the deuterium-tritium (D-T) campaign at the Joint European Torus (JET). These experiments will be the first experiments involving T with the ITER-like plasma-wall facing components materials. They will give a unique opportunity to test one of the most promising ion cyclotron resonance frequency (ICRF) heating schemes for ITER plasmas: the 2nd tritium (T) harmonic resonance (ω = 2ωT). This paper provides two key contributions related to modelling of the performance of this scheme at JET. First, we assess the heating performance of the 2nd T harmonic resonance and, second, we model different ICRF schemes for the T campaign in support for the D-T campaign, i.e., identify differences and similarities from the heating point of view between T and D-T plasmas in order to predict the performance of ω = 2ωT in the D-T scenario. In our modelling we use a selected hybrid record discharge as reference, i.e., using its experimental profiles. We consider two ICRF schemes (6 MW), i.e. ω = ω3He = 2ωT (no 3He), with a central resonance and three NBI power outputs (15, 25 and 35 MW) in two plasma compositions ( 100% T and 50%:50% D-T). Note that isotope effects are not taken into account in these simulations. For this study, the ICRF and NBI heating are modelled with the ICRF code PION and the beam code PENCIL which take into account the ICRF+NBI synergy. The analysis of the T velocity distribution function shows that a stronger tail is formed in those plasmas with lower tritium density. This fact has an important impact on the slowing-down process of fast tritons with the background species. The T plasma shows a higher and more peaked ion-ion collisional power density at the plasma centre as compared to D-T plasma. In the T plasma, ICRF heating drives fast tritons at the plasma centre with an average energy substantially lower than in the other case. On the other hand, the use of 3He as a minority makes the fast ion T energy considerably lower due to strong 3He absorption. Fast ion average energies reached at the plasma centre are similar in all species mixture cases. As a result, there is a strong heating similarity between T and D-T. However, it is crucial to study the generation of a strong T tail as a result of particle-wave interaction which is not possible under this scheme and needs to be studied in plasmas without 3He in preparation of JET D-T campaign and ITER. Therefore, both schemes (ω = ω3He = 2ωT and ω=2ωT) need to be tested." @default.
W3128509020 created "2021-02-15" @default.
W3128509020 date "2020-01-01" @default.
W3128509020 modified "2023-10-17" @default.
W3128509020 title "Modelling of ICRF heating for JET T and D-T plasmas" @default.
W3128509020 cites W2005356314 @default.
W3128509020 cites W2060371465 @default.
W3128509020 cites W2061286338 @default.
W3128509020 cites W2081456987 @default.
W3128509020 cites W2095082543 @default.
W3128509020 cites W2588610461 @default.
W3128509020 cites W2887934690 @default.
W3128509020 cites W2914593159 @default.
W3128509020 cites W3106453870 @default.
W3128509020 doi "https://doi.org/10.1063/5.0014358" @default.
W3128509020 hasPublicationYear "2020" @default.
W3128509020 type Work @default.
W3128509020 sameAs 3128509020 @default.
W3128509020 citedByCount "3" @default.
W3128509020 countsByYear W31285090202021 @default.
W3128509020 countsByYear W31285090202022 @default.
W3128509020 crossrefType "proceedings-article" @default.
W3128509020 hasBestOaLocation W31285090201 @default.
W3128509020 hasConcept C116515362 @default.
W3128509020 hasConcept C116915560 @default.
W3128509020 hasConcept C119947313 @default.
W3128509020 hasConcept C121332964 @default.
W3128509020 hasConcept C127413603 @default.
W3128509020 hasConcept C139210041 @default.
W3128509020 hasConcept C145148216 @default.
W3128509020 hasConcept C184779094 @default.
W3128509020 hasConcept C185544564 @default.
W3128509020 hasConcept C2776668819 @default.
W3128509020 hasConcept C30475298 @default.
W3128509020 hasConcept C57879066 @default.
W3128509020 hasConcept C58364064 @default.
W3128509020 hasConcept C62520636 @default.
W3128509020 hasConcept C82706917 @default.
W3128509020 hasConceptScore W3128509020C116515362 @default.
W3128509020 hasConceptScore W3128509020C116915560 @default.
W3128509020 hasConceptScore W3128509020C119947313 @default.
W3128509020 hasConceptScore W3128509020C121332964 @default.
W3128509020 hasConceptScore W3128509020C127413603 @default.
W3128509020 hasConceptScore W3128509020C139210041 @default.
W3128509020 hasConceptScore W3128509020C145148216 @default.
W3128509020 hasConceptScore W3128509020C184779094 @default.
W3128509020 hasConceptScore W3128509020C185544564 @default.
W3128509020 hasConceptScore W3128509020C2776668819 @default.
W3128509020 hasConceptScore W3128509020C30475298 @default.
W3128509020 hasConceptScore W3128509020C57879066 @default.
W3128509020 hasConceptScore W3128509020C58364064 @default.
W3128509020 hasConceptScore W3128509020C62520636 @default.
W3128509020 hasConceptScore W3128509020C82706917 @default.
W3128509020 hasLocation W31285090201 @default.
W3128509020 hasOpenAccess W3128509020 @default.
W3128509020 hasPrimaryLocation W31285090201 @default.
W3128509020 hasRelatedWork W1990644908 @default.
W3128509020 hasRelatedWork W1997362215 @default.
W3128509020 hasRelatedWork W2009609917 @default.
W3128509020 hasRelatedWork W2056023687 @default.
W3128509020 hasRelatedWork W2500340847 @default.
W3128509020 hasRelatedWork W2546258174 @default.
W3128509020 hasRelatedWork W4239262533 @default.
W3128509020 hasRelatedWork W4239935468 @default.
W3128509020 hasRelatedWork W90517003 @default.
W3128509020 hasRelatedWork W1639936716 @default.
W3128509020 isParatext "false" @default.
W3128509020 isRetracted "false" @default.
W3128509020 magId "3128509020" @default.
W3128509020 workType "article" @default.