Electron Temperature and Density Profiles, and SOL Parameter Scaling in W7-X Measured by Helium Beam Diagnostics
POSTER
Abstract
Heat and particle transport in the scrape-off layer (SOL) of Wendelstein 7-X (W7-X) plays a
critical role in determining divertor performance. Accurate measurements of electron
temperature (Te) and density (ne) are essential for understanding SOL transport and optimizing
exhaust conditions. This work presents results from helium beam diagnostics, which consist of a
gas injection system coupled with multiple spectrometers of varying spectral resolution. These
diagnostics provide simultaneous Te and ne measurements in both upper and lower divertor
regions (downstream) and, for the first time, in the midplane region (upstream).Electron
temperature and density are inferred using helium line ratio spectroscopy, based on a
collisional-radiative model of atomic helium. The helium beam diagnostic at W7-X has been
thoroughly validated and is routinely used to map plasma parameters, particularly within the
island divertor [1][2]. The Te and ne profiles reported in this study were obtained across a range
of plasma conditions, including detached and impurity-seeded discharges. We present
comparative analysis of upstream and downstream Te and ne profiles, along with an
investigation of scaling relationships across a range of conditions, such as heating power,
connection length, and field line pitch, among others.
[1] T. Barbui et al., Nucl. Fusion 60, 106014 (2020).
[2] Flom, E., et al. arXiv preprint arXiv:2312.01240 (2023).
critical role in determining divertor performance. Accurate measurements of electron
temperature (Te) and density (ne) are essential for understanding SOL transport and optimizing
exhaust conditions. This work presents results from helium beam diagnostics, which consist of a
gas injection system coupled with multiple spectrometers of varying spectral resolution. These
diagnostics provide simultaneous Te and ne measurements in both upper and lower divertor
regions (downstream) and, for the first time, in the midplane region (upstream).Electron
temperature and density are inferred using helium line ratio spectroscopy, based on a
collisional-radiative model of atomic helium. The helium beam diagnostic at W7-X has been
thoroughly validated and is routinely used to map plasma parameters, particularly within the
island divertor [1][2]. The Te and ne profiles reported in this study were obtained across a range
of plasma conditions, including detached and impurity-seeded discharges. We present
comparative analysis of upstream and downstream Te and ne profiles, along with an
investigation of scaling relationships across a range of conditions, such as heating power,
connection length, and field line pitch, among others.
[1] T. Barbui et al., Nucl. Fusion 60, 106014 (2020).
[2] Flom, E., et al. arXiv preprint arXiv:2312.01240 (2023).
*This work was funded in part by the U.S. Department of Energy Office of Science under grant DE-SC00014210 and by the European Union via the Euratom Research and Training Programme (Grant Agreement No 101052200 — EUROfusion).
Presenters
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Foisal Bin Touhid Siddiki
- University of Wisconsin - Madison