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L-H transition studies in tritium and deuterium–tritium campaigns at JET with Be wall and W divertor

Author
Abstract

The recent deuterium–tritium campaign in JET-ILW (DTE2) has provided a unique opportunity to study the isotope dependence of the L-H power threshold in an ITER-like wall environment (Be wall and W divertor). Here we present results from dedicated L-H transition experiments at JET-ILW, documenting the power threshold in tritium and deuterium–tritium plasmas, comparing them with the matching deuterium and hydrogen datasets. From earlier experiments in JET-ILW it is known that as plasma isotopic composition changes from deuterium, through varying deuterium/hydrogen concentrations, to pure hydrogen, the value of the line averaged density at which the threshold is minimum, ñ e,min, increases, leading us to expect that ñ e,min(T) < ñ e,min(DT) < ñ e,min(D) < ñ e,min(H). The new power threshold data confirms these expectations in most cases, with the corresponding ordering of the minimum power thresholds. We present a comparison of this data to power threshold scalings, used for extrapolation to future devices such as ITER and DEMO.

Year of Publication
2023
Journal
Nuclear Fusion
Volume
63
Issue
11
Number of Pages
112011
Publisher
IOP Publishing
DOI
10.1088/1741-4326/acee12
PId
9e91b2c64f0a4f5e660d71f7f15f28d1
Alternate Journal
Nucl. Fusion
Label
OA
Journal Article
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