The multi-faced nature of the quasicoherent mode in EDA H-mode

The EUROfusion Tokamak Exploitation Team; the ASDEX Upgrade Team

doi:10.1088/1741-4326/ad751b

The multi-faced nature of the quasicoherent mode in EDA H-mode

The EUROfusion Tokamak Exploitation Team
, the ASDEX Upgrade Team

Chair of Plasmarand- und Divertorphysik

Max Planck Institute for Plasma Physics
Instituto Superior Técnico
Ernst-Moritz-Arndt Universität Greifswald
Institute of Plasma Physics of the Czech Academy of Sciences
Commonwealth Fusion Systems
Consorzio Rfx
MIT Plasma Science and Fusion Center

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

12 Scopus citations

Abstract

In order to extend the enhanced D-Alpha H-mode to future devices, it is crucial to understand the properties of the main signature of this regime, the quasicoherent mode (QCM), that likely clamps the pressure gradient below the ideal magnetohydrodynamic limit. The turbulent character of the QCM is investigated with scanning probes in ASDEX Upgrade. Analysis reveals the multi-faced character of the mode that spans both the confined region (where the radial electric field is negative) and the near scrape-off layer (SOL) (where it is positive). Fluctuations of density and potential at the QCM frequency are more anti-correlated towards the confined region, which is a fingerprint of electromagnetic instabilities, while they become more correlated in the SOL, as expected for a drift-wave, inducing cross-field transport across the separatrix.

Original language	English
Article number	104002
Journal	Nuclear Fusion
Volume	64
Issue number	10
DOIs	https://doi.org/10.1088/1741-4326/ad751b
State	Published - 1 Oct 2024

Keywords

ASDEX upgrade
EDA H-mode
ELM-free
plasma turbulence
quasi-coherent mode

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10.1088/1741-4326/ad751b

Cite this

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title = "The multi-faced nature of the quasicoherent mode in EDA H-mode",

abstract = "In order to extend the enhanced D-Alpha H-mode to future devices, it is crucial to understand the properties of the main signature of this regime, the quasicoherent mode (QCM), that likely clamps the pressure gradient below the ideal magnetohydrodynamic limit. The turbulent character of the QCM is investigated with scanning probes in ASDEX Upgrade. Analysis reveals the multi-faced character of the mode that spans both the confined region (where the radial electric field is negative) and the near scrape-off layer (SOL) (where it is positive). Fluctuations of density and potential at the QCM frequency are more anti-correlated towards the confined region, which is a fingerprint of electromagnetic instabilities, while they become more correlated in the SOL, as expected for a drift-wave, inducing cross-field transport across the separatrix.",

keywords = "ASDEX upgrade, EDA H-mode, ELM-free, plasma turbulence, quasi-coherent mode",

author = "\{The EUROfusion Tokamak Exploitation Team\} and \{the ASDEX Upgrade Team\} and G. Grenfell and L. Gil and P. Manz and C. Silva and J. Adamek and D. Brida and Conway, \{G. D.\} and T. Eich and M. Faitsch and T. Happel and M. Spolaore and U. Stroth and B. Tal and B. Vanovac and E. Wolfrum",

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doi = "10.1088/1741-4326/ad751b",

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AU - The EUROfusion Tokamak Exploitation Team

AU - the ASDEX Upgrade Team

AU - Grenfell, G.

AU - Gil, L.

AU - Manz, P.

AU - Silva, C.

AU - Adamek, J.

AU - Brida, D.

AU - Conway, G. D.

AU - Eich, T.

AU - Faitsch, M.

AU - Happel, T.

AU - Spolaore, M.

AU - Stroth, U.

AU - Tal, B.

AU - Vanovac, B.

AU - Wolfrum, E.

PY - 2024/10/1

Y1 - 2024/10/1

N2 - In order to extend the enhanced D-Alpha H-mode to future devices, it is crucial to understand the properties of the main signature of this regime, the quasicoherent mode (QCM), that likely clamps the pressure gradient below the ideal magnetohydrodynamic limit. The turbulent character of the QCM is investigated with scanning probes in ASDEX Upgrade. Analysis reveals the multi-faced character of the mode that spans both the confined region (where the radial electric field is negative) and the near scrape-off layer (SOL) (where it is positive). Fluctuations of density and potential at the QCM frequency are more anti-correlated towards the confined region, which is a fingerprint of electromagnetic instabilities, while they become more correlated in the SOL, as expected for a drift-wave, inducing cross-field transport across the separatrix.

AB - In order to extend the enhanced D-Alpha H-mode to future devices, it is crucial to understand the properties of the main signature of this regime, the quasicoherent mode (QCM), that likely clamps the pressure gradient below the ideal magnetohydrodynamic limit. The turbulent character of the QCM is investigated with scanning probes in ASDEX Upgrade. Analysis reveals the multi-faced character of the mode that spans both the confined region (where the radial electric field is negative) and the near scrape-off layer (SOL) (where it is positive). Fluctuations of density and potential at the QCM frequency are more anti-correlated towards the confined region, which is a fingerprint of electromagnetic instabilities, while they become more correlated in the SOL, as expected for a drift-wave, inducing cross-field transport across the separatrix.

KW - ASDEX upgrade

KW - EDA H-mode

KW - ELM-free

KW - plasma turbulence

KW - quasi-coherent mode

UR - https://www.scopus.com/pages/publications/85203440964

U2 - 10.1088/1741-4326/ad751b

DO - 10.1088/1741-4326/ad751b

M3 - Article

AN - SCOPUS:85203440964

SN - 0029-5515

VL - 64

JO - Nuclear Fusion

JF - Nuclear Fusion

IS - 10

M1 - 104002

ER -

The multi-faced nature of the quasicoherent mode in EDA H-mode

Abstract

Keywords

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