2D electron density profile evolution during detachment in Super-X divertor L-mode discharges on MAST-U

Eurofusion Tokamak Exploitation Team; MAST Upgrade team; N. Lonigro; R.S. Doyle; K. Verhaegh; B. Lipschultz; D. Moulton; P. Ryan; J.S. Allcock; C. Bowman; D. Brida; J. Harrison; S. Silburn; C. Theiler; T.A. Wijkamp

doi:10.1088/1741-4326/ae0b90

2D electron density profile evolution during detachment in Super-X divertor L-mode discharges on MAST-U

Eurofusion Tokamak Exploitation Team
, MAST Upgrade team
, N. Lonigro (Corresponding author)
, R.S. Doyle
, K. Verhaegh
, B. Lipschultz
, D. Moulton
, P. Ryan
, J.S. Allcock
, C. Bowman
, D. Brida
, J. Harrison
, S. Silburn
, C. Theiler
, T.A. Wijkamp

Science and Technology of Nuclear Fusion

Research output: Contribution to journal › Article › Academic › peer-review

1 Citation (Scopus)

5 Downloads (Pure)

Abstract

The improved performance of the long-legged alternative divertor configurations on MAST-U, combining strong baffling and total flux expansion, results in stronger power and momentum losses. These lead to lower electron temperatures and peak particle fluxes at the target compared to conventional divertor configurations. The evolution of the divertor electron density profile in the detached region, measured via coherence imaging spectroscopy, is characterized by a density peak building up near the target, downstream of the detachment front, with increasing upstream density. The peak then moves upstream from the target as the target temperature decreases (T_e < 0.3 eV). This behaviour is in agreement with simplified modelling based on the competition of different ion recombination processes and neutral drag acting on the plasma flow. Comparisons against SOLPS-ITER simulations generally show good agreement in the magnitude of the electron density profiles, both along and across the separatrix, but with some discrepancies in the shape of the profiles in the private flux region and near the target.

Original language	English
Article number	116016
Number of pages	17
Journal	Nuclear Fusion
Volume	65
Issue number	11
DOIs	https://doi.org/10.1088/1741-4326/ae0b90
Publication status	Published - 1 Nov 2025

Bibliographical note

Publisher Copyright:
© 2025 Crown copyright, UK Atomic Energy Authority & The Author(s). Published by IOP Publishing Ltd on behalf of the IAEA.

Keywords

CIS
coherence imaging
MAST upgrade
stark broadening
super-X divertor

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Eurofusion Tokamak Exploitation Team, MAST Upgrade team, Lonigro, N., Doyle, R. S., Verhaegh, K., Lipschultz, B., Moulton, D., Ryan, P., Allcock, J. S., Bowman, C., Brida, D., Harrison, J., Silburn, S., Theiler, C., & Wijkamp, T. A. (2025). 2D electron density profile evolution during detachment in Super-X divertor L-mode discharges on MAST-U. Nuclear Fusion, 65(11), Article 116016. https://doi.org/10.1088/1741-4326/ae0b90

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title = "2D electron density profile evolution during detachment in Super-X divertor L-mode discharges on MAST-U",

abstract = "The improved performance of the long-legged alternative divertor configurations on MAST-U, combining strong baffling and total flux expansion, results in stronger power and momentum losses. These lead to lower electron temperatures and peak particle fluxes at the target compared to conventional divertor configurations. The evolution of the divertor electron density profile in the detached region, measured via coherence imaging spectroscopy, is characterized by a density peak building up near the target, downstream of the detachment front, with increasing upstream density. The peak then moves upstream from the target as the target temperature decreases (Te < 0.3 eV). This behaviour is in agreement with simplified modelling based on the competition of different ion recombination processes and neutral drag acting on the plasma flow. Comparisons against SOLPS-ITER simulations generally show good agreement in the magnitude of the electron density profiles, both along and across the separatrix, but with some discrepancies in the shape of the profiles in the private flux region and near the target.",

keywords = "CIS, coherence imaging, MAST upgrade, stark broadening, super-X divertor",

author = "\{Eurofusion Tokamak Exploitation Team\} and \{MAST Upgrade team\} and N. Lonigro and R.S. Doyle and K. Verhaegh and B. Lipschultz and D. Moulton and P. Ryan and J.S. Allcock and C. Bowman and D. Brida and J. Harrison and S. Silburn and C. Theiler and T.A. Wijkamp",

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Eurofusion Tokamak Exploitation Team, MAST Upgrade team, Lonigro, N, Doyle, RS, Verhaegh, K, Lipschultz, B, Moulton, D, Ryan, P, Allcock, JS, Bowman, C, Brida, D, Harrison, J, Silburn, S, Theiler, C & Wijkamp, TA 2025, '2D electron density profile evolution during detachment in Super-X divertor L-mode discharges on MAST-U', Nuclear Fusion, vol. 65, no. 11, 116016. https://doi.org/10.1088/1741-4326/ae0b90

TY - JOUR

T1 - 2D electron density profile evolution during detachment in Super-X divertor L-mode discharges on MAST-U

AU - Eurofusion Tokamak Exploitation Team

AU - MAST Upgrade team

AU - Lonigro, N.

AU - Doyle, R.S.

AU - Verhaegh, K.

AU - Lipschultz, B.

AU - Moulton, D.

AU - Ryan, P.

AU - Allcock, J.S.

AU - Bowman, C.

AU - Brida, D.

AU - Harrison, J.

AU - Silburn, S.

AU - Theiler, C.

AU - Wijkamp, T.A.

PY - 2025/11/1

Y1 - 2025/11/1

N2 - The improved performance of the long-legged alternative divertor configurations on MAST-U, combining strong baffling and total flux expansion, results in stronger power and momentum losses. These lead to lower electron temperatures and peak particle fluxes at the target compared to conventional divertor configurations. The evolution of the divertor electron density profile in the detached region, measured via coherence imaging spectroscopy, is characterized by a density peak building up near the target, downstream of the detachment front, with increasing upstream density. The peak then moves upstream from the target as the target temperature decreases (Te < 0.3 eV). This behaviour is in agreement with simplified modelling based on the competition of different ion recombination processes and neutral drag acting on the plasma flow. Comparisons against SOLPS-ITER simulations generally show good agreement in the magnitude of the electron density profiles, both along and across the separatrix, but with some discrepancies in the shape of the profiles in the private flux region and near the target.

AB - The improved performance of the long-legged alternative divertor configurations on MAST-U, combining strong baffling and total flux expansion, results in stronger power and momentum losses. These lead to lower electron temperatures and peak particle fluxes at the target compared to conventional divertor configurations. The evolution of the divertor electron density profile in the detached region, measured via coherence imaging spectroscopy, is characterized by a density peak building up near the target, downstream of the detachment front, with increasing upstream density. The peak then moves upstream from the target as the target temperature decreases (Te < 0.3 eV). This behaviour is in agreement with simplified modelling based on the competition of different ion recombination processes and neutral drag acting on the plasma flow. Comparisons against SOLPS-ITER simulations generally show good agreement in the magnitude of the electron density profiles, both along and across the separatrix, but with some discrepancies in the shape of the profiles in the private flux region and near the target.

KW - CIS

KW - coherence imaging

KW - MAST upgrade

KW - stark broadening

KW - super-X divertor

UR - https://www.scopus.com/pages/publications/105019064187

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DO - 10.1088/1741-4326/ae0b90

M3 - Article

AN - SCOPUS:105019064187

SN - 0029-5515

VL - 65

JO - Nuclear Fusion

JF - Nuclear Fusion

IS - 11

M1 - 116016

ER -

2D electron density profile evolution during detachment in Super-X divertor L-mode discharges on MAST-U

Abstract

Bibliographical note

Keywords

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