Impurity transport studies at Wendelstein 7-X by means of x-ray imaging spectrometer measurements

A. Langenberg; F. Warmer; G. Fuchert; O. Marchuk; A. Dinklage; Th. Wegner; J.A. Alonso; S. Bozhenkov; K.J. Brunner; R. Burhenn; B. Buttenschön; P. Drews; B. Geiger; O. Grulke; M. Hirsch; U. Höfel; K.P. Hollfeld; C. Killer; J. Knauer; T. Krings; F. Kunkel; U. Neuner; G. Offermanns; N.A. Pablant; E. Pasch; K. Rahbarnia; G. Satheeswaran; J. Schilling; B. Schweer; H. Thomsen; P. Traverso; R.C. Wolf

doi:10.1088/1361-6587/aaeb74

Impurity transport studies at Wendelstein 7-X by means of x-ray imaging spectrometer measurements

A. Langenberg, F. Warmer, G. Fuchert, O. Marchuk, A. Dinklage, Th. Wegner, J.A. Alonso, S. Bozhenkov, K.J. Brunner, R. Burhenn, B. Buttenschön, P. Drews, B. Geiger, O. Grulke, M. Hirsch, U. Höfel, K.P. Hollfeld, C. Killer, J. Knauer, T. KringsF. Kunkel, U. Neuner, G. Offermanns, N.A. Pablant, E. Pasch, K. Rahbarnia, G. Satheeswaran, J. Schilling, B. Schweer, H. Thomsen, P. Traverso, R.C. Wolf

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Abstract

This paper reports on the effect of on- and off-axis heating power deposition on the impurity confinement in purely electron cyclotron resonance heated He plasmas on the stellarator Wendelstein 7-X. Therefore, impurity transport times τ _I have been determined after Fe impurity injections by laser ablations and monitoring the temporal impurity emissivities by the x-ray imaging spectrometer HR-XIS. A significant increase of τ _I has been observed when changing the power deposition from on- to off-axis heating with energy confinement times τ _E being mainly unaffected. In addition, the scaling of impurity transport properties with respect to a variation of heating power P _ECRH and electron density n _e has been investigated by keeping the heating power deposition on-axis. The observed τ _I scaling compares well to known τ _I scaling laws observed in other machines. A comparison of τ _I and τ _E yields an averaged ratio of τ _E/τ _I = 1.3 and transport times in the range of τ _I = 40-130 ms and τ _E = 40-190 ms. Comparing those absolute values to neoclassical predictions supports the recently observed nature of anomalous transport in Wendelstein 7-X, given within the up to now investigated operational parameters.

Original language	English
Article number	014030
Number of pages	8
Journal	Plasma Physics and Controlled Fusion
Volume	61
Issue number	1
DOIs	https://doi.org/10.1088/1361-6587/aaeb74
Publication status	Published - 1 Jan 2018
Externally published	Yes

Funding

This work has been carried out within the framework of the EUROfusion Consortium and has received funding from the Euratom research and training programme 2014–2018 under grant agreement No 633053. The views and opinions expressed herein do not necessarily reflect those of the European Commission.

Keywords

energy confinement
imaging spectrometer
impurity confinement
impurity transport
laser blow-off
plasma physics

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10.1088/1361-6587/aaeb74

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Langenberg, A., Warmer, F., Fuchert, G., Marchuk, O., Dinklage, A., Wegner, T., Alonso, J. A., Bozhenkov, S., Brunner, K. J., Burhenn, R., Buttenschön, B., Drews, P., Geiger, B., Grulke, O., Hirsch, M., Höfel, U., Hollfeld, K. P., Killer, C., Knauer, J., ... Wolf, R. C. (2018). Impurity transport studies at Wendelstein 7-X by means of x-ray imaging spectrometer measurements. Plasma Physics and Controlled Fusion, 61(1), Article 014030. https://doi.org/10.1088/1361-6587/aaeb74

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title = "Impurity transport studies at Wendelstein 7-X by means of x-ray imaging spectrometer measurements",

abstract = "This paper reports on the effect of on- and off-axis heating power deposition on the impurity confinement in purely electron cyclotron resonance heated He plasmas on the stellarator Wendelstein 7-X. Therefore, impurity transport times τ I have been determined after Fe impurity injections by laser ablations and monitoring the temporal impurity emissivities by the x-ray imaging spectrometer HR-XIS. A significant increase of τ I has been observed when changing the power deposition from on- to off-axis heating with energy confinement times τ E being mainly unaffected. In addition, the scaling of impurity transport properties with respect to a variation of heating power P ECRH and electron density n e has been investigated by keeping the heating power deposition on-axis. The observed τ I scaling compares well to known τ I scaling laws observed in other machines. A comparison of τ I and τ E yields an averaged ratio of τ E/τ I = 1.3 and transport times in the range of τ I = 40-130 ms and τ E = 40-190 ms. Comparing those absolute values to neoclassical predictions supports the recently observed nature of anomalous transport in Wendelstein 7-X, given within the up to now investigated operational parameters.",

keywords = "energy confinement, imaging spectrometer, impurity confinement, impurity transport, laser blow-off, plasma physics",

author = "A. Langenberg and F. Warmer and G. Fuchert and O. Marchuk and A. Dinklage and Th. Wegner and J.A. Alonso and S. Bozhenkov and K.J. Brunner and R. Burhenn and B. Buttensch{\"o}n and P. Drews and B. Geiger and O. Grulke and M. Hirsch and U. H{\"o}fel and K.P. Hollfeld and C. Killer and J. Knauer and T. Krings and F. Kunkel and U. Neuner and G. Offermanns and N.A. Pablant and E. Pasch and K. Rahbarnia and G. Satheeswaran and J. Schilling and B. Schweer and H. Thomsen and P. Traverso and R.C. Wolf",

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Langenberg, A, Warmer, F, Fuchert, G, Marchuk, O, Dinklage, A, Wegner, T, Alonso, JA, Bozhenkov, S, Brunner, KJ, Burhenn, R, Buttenschön, B, Drews, P, Geiger, B, Grulke, O, Hirsch, M, Höfel, U, Hollfeld, KP, Killer, C, Knauer, J, Krings, T, Kunkel, F, Neuner, U, Offermanns, G, Pablant, NA, Pasch, E, Rahbarnia, K, Satheeswaran, G, Schilling, J, Schweer, B, Thomsen, H, Traverso, P & Wolf, RC 2018, 'Impurity transport studies at Wendelstein 7-X by means of x-ray imaging spectrometer measurements', Plasma Physics and Controlled Fusion, vol. 61, no. 1, 014030. https://doi.org/10.1088/1361-6587/aaeb74

TY - JOUR

T1 - Impurity transport studies at Wendelstein 7-X by means of x-ray imaging spectrometer measurements

AU - Langenberg, A.

AU - Warmer, F.

AU - Fuchert, G.

AU - Marchuk, O.

AU - Dinklage, A.

AU - Wegner, Th.

AU - Alonso, J.A.

AU - Bozhenkov, S.

AU - Brunner, K.J.

AU - Burhenn, R.

AU - Buttenschön, B.

AU - Drews, P.

AU - Geiger, B.

AU - Grulke, O.

AU - Hirsch, M.

AU - Höfel, U.

AU - Hollfeld, K.P.

AU - Killer, C.

AU - Knauer, J.

AU - Krings, T.

AU - Kunkel, F.

AU - Neuner, U.

AU - Offermanns, G.

AU - Pablant, N.A.

AU - Pasch, E.

AU - Rahbarnia, K.

AU - Satheeswaran, G.

AU - Schilling, J.

AU - Schweer, B.

AU - Thomsen, H.

AU - Traverso, P.

AU - Wolf, R.C.

PY - 2018/1/1

Y1 - 2018/1/1

N2 - This paper reports on the effect of on- and off-axis heating power deposition on the impurity confinement in purely electron cyclotron resonance heated He plasmas on the stellarator Wendelstein 7-X. Therefore, impurity transport times τ I have been determined after Fe impurity injections by laser ablations and monitoring the temporal impurity emissivities by the x-ray imaging spectrometer HR-XIS. A significant increase of τ I has been observed when changing the power deposition from on- to off-axis heating with energy confinement times τ E being mainly unaffected. In addition, the scaling of impurity transport properties with respect to a variation of heating power P ECRH and electron density n e has been investigated by keeping the heating power deposition on-axis. The observed τ I scaling compares well to known τ I scaling laws observed in other machines. A comparison of τ I and τ E yields an averaged ratio of τ E/τ I = 1.3 and transport times in the range of τ I = 40-130 ms and τ E = 40-190 ms. Comparing those absolute values to neoclassical predictions supports the recently observed nature of anomalous transport in Wendelstein 7-X, given within the up to now investigated operational parameters.

AB - This paper reports on the effect of on- and off-axis heating power deposition on the impurity confinement in purely electron cyclotron resonance heated He plasmas on the stellarator Wendelstein 7-X. Therefore, impurity transport times τ I have been determined after Fe impurity injections by laser ablations and monitoring the temporal impurity emissivities by the x-ray imaging spectrometer HR-XIS. A significant increase of τ I has been observed when changing the power deposition from on- to off-axis heating with energy confinement times τ E being mainly unaffected. In addition, the scaling of impurity transport properties with respect to a variation of heating power P ECRH and electron density n e has been investigated by keeping the heating power deposition on-axis. The observed τ I scaling compares well to known τ I scaling laws observed in other machines. A comparison of τ I and τ E yields an averaged ratio of τ E/τ I = 1.3 and transport times in the range of τ I = 40-130 ms and τ E = 40-190 ms. Comparing those absolute values to neoclassical predictions supports the recently observed nature of anomalous transport in Wendelstein 7-X, given within the up to now investigated operational parameters.

KW - energy confinement

KW - imaging spectrometer

KW - impurity confinement

KW - impurity transport

KW - laser blow-off

KW - plasma physics

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U2 - 10.1088/1361-6587/aaeb74

DO - 10.1088/1361-6587/aaeb74

M3 - Article

AN - SCOPUS:85057869948

SN - 0741-3335

VL - 61

JO - Plasma Physics and Controlled Fusion

JF - Plasma Physics and Controlled Fusion

IS - 1

M1 - 014030

ER -

Impurity transport studies at Wendelstein 7-X by means of x-ray imaging spectrometer measurements

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