Density profile and turbulence evolution during L-H transition studied with the ultra-fast swept reflectometer on ASDEX Upgrade

A. Medvedeva; C. Bottereau; F. Clairet; P. Hennequin; U. Stroth; G. Birkenmeier; M. Cavedon; G. D. Conway; T. Happel; S. Heuraux; D. Molina; A. Silva; M. Willensdorfer

doi:10.1088/1361-6587/aa9251

Density profile and turbulence evolution during L-H transition studied with the ultra-fast swept reflectometer on ASDEX Upgrade

A. Medvedeva, C. Bottereau, F. Clairet, P. Hennequin, U. Stroth, G. Birkenmeier, M. Cavedon, G. D. Conway, T. Happel, S. Heuraux, D. Molina, A. Silva, M. Willensdorfer

Chair of Plasmarand- und Divertorphysik

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

17 Scopus citations

Abstract

The ultra-fast swept reflectometer with the sweep time of 1 μs, inferior to the characteristic turbulent time scale, has provided the measurements of the fast density and density fluctuation evolution across major parts of tokamak plasma radius. The L-H transitions in a series of plasma discharges in ASDEX Upgrade have been studied with a high temporal resolution. The comparison of the density fluctuation behaviour in L- and H-mode is presented. The I-phase oscillation dynamics has been described in terms of the density fluctuation level, the radial electric field and the normalised electron pressure gradient. Indications for a phase shift between the turbulence and the radial electric field are observed in the beginning of the I-phase, where the turbulence grows first and the radial electric field increase follows. In the established I-phase the electric field and the turbulence are in phase.

Original language	English
Article number	125014
Journal	Plasma Physics and Controlled Fusion
Volume	59
Issue number	12
DOIs	https://doi.org/10.1088/1361-6587/aa9251
State	Published - 10 Nov 2017

Keywords

I-phase
L-H transition
nuclear fusion
plasma physics
reflectometry
tokamak
turbulence

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10.1088/1361-6587/aa9251

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Medvedeva, A., Bottereau, C., Clairet, F., Hennequin, P., Stroth, U., Birkenmeier, G., Cavedon, M., Conway, G. D., Happel, T., Heuraux, S., Molina, D., Silva, A., & Willensdorfer, M. (2017). Density profile and turbulence evolution during L-H transition studied with the ultra-fast swept reflectometer on ASDEX Upgrade. Plasma Physics and Controlled Fusion, 59(12), Article 125014. https://doi.org/10.1088/1361-6587/aa9251

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title = "Density profile and turbulence evolution during L-H transition studied with the ultra-fast swept reflectometer on ASDEX Upgrade",

abstract = "The ultra-fast swept reflectometer with the sweep time of 1 μs, inferior to the characteristic turbulent time scale, has provided the measurements of the fast density and density fluctuation evolution across major parts of tokamak plasma radius. The L-H transitions in a series of plasma discharges in ASDEX Upgrade have been studied with a high temporal resolution. The comparison of the density fluctuation behaviour in L- and H-mode is presented. The I-phase oscillation dynamics has been described in terms of the density fluctuation level, the radial electric field and the normalised electron pressure gradient. Indications for a phase shift between the turbulence and the radial electric field are observed in the beginning of the I-phase, where the turbulence grows first and the radial electric field increase follows. In the established I-phase the electric field and the turbulence are in phase.",

keywords = "I-phase, L-H transition, nuclear fusion, plasma physics, reflectometry, tokamak, turbulence",

author = "A. Medvedeva and C. Bottereau and F. Clairet and P. Hennequin and U. Stroth and G. Birkenmeier and M. Cavedon and Conway, {G. D.} and T. Happel and S. Heuraux and D. Molina and A. Silva and M. Willensdorfer",

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Medvedeva, A, Bottereau, C, Clairet, F, Hennequin, P, Stroth, U, Birkenmeier, G, Cavedon, M, Conway, GD, Happel, T, Heuraux, S, Molina, D, Silva, A & Willensdorfer, M 2017, 'Density profile and turbulence evolution during L-H transition studied with the ultra-fast swept reflectometer on ASDEX Upgrade', Plasma Physics and Controlled Fusion, vol. 59, no. 12, 125014. https://doi.org/10.1088/1361-6587/aa9251

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AU - Medvedeva, A.

AU - Bottereau, C.

AU - Clairet, F.

AU - Hennequin, P.

AU - Stroth, U.

AU - Birkenmeier, G.

AU - Cavedon, M.

AU - Conway, G. D.

AU - Happel, T.

AU - Heuraux, S.

AU - Molina, D.

AU - Silva, A.

AU - Willensdorfer, M.

PY - 2017/11/10

Y1 - 2017/11/10

N2 - The ultra-fast swept reflectometer with the sweep time of 1 μs, inferior to the characteristic turbulent time scale, has provided the measurements of the fast density and density fluctuation evolution across major parts of tokamak plasma radius. The L-H transitions in a series of plasma discharges in ASDEX Upgrade have been studied with a high temporal resolution. The comparison of the density fluctuation behaviour in L- and H-mode is presented. The I-phase oscillation dynamics has been described in terms of the density fluctuation level, the radial electric field and the normalised electron pressure gradient. Indications for a phase shift between the turbulence and the radial electric field are observed in the beginning of the I-phase, where the turbulence grows first and the radial electric field increase follows. In the established I-phase the electric field and the turbulence are in phase.

AB - The ultra-fast swept reflectometer with the sweep time of 1 μs, inferior to the characteristic turbulent time scale, has provided the measurements of the fast density and density fluctuation evolution across major parts of tokamak plasma radius. The L-H transitions in a series of plasma discharges in ASDEX Upgrade have been studied with a high temporal resolution. The comparison of the density fluctuation behaviour in L- and H-mode is presented. The I-phase oscillation dynamics has been described in terms of the density fluctuation level, the radial electric field and the normalised electron pressure gradient. Indications for a phase shift between the turbulence and the radial electric field are observed in the beginning of the I-phase, where the turbulence grows first and the radial electric field increase follows. In the established I-phase the electric field and the turbulence are in phase.

KW - I-phase

KW - L-H transition

KW - nuclear fusion

KW - plasma physics

KW - reflectometry

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Density profile and turbulence evolution during L-H transition studied with the ultra-fast swept reflectometer on ASDEX Upgrade

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