Prospects of X-ray imaging spectrometers for impurity transport: Recent results from the stellarator Wendelstein 7-X (invited)

被引:37
|
作者
Langenberg, A. [1 ]
Pablant, N. A. [2 ]
Wegner, Th [1 ]
Traverso, P. [3 ]
Marchuk, O. [4 ]
Braeuer, T. [1 ]
Geiger, B. [1 ]
Fuchert, G. [1 ]
Bozhenkov, S. [1 ]
Pasch, E. [1 ]
Grulke, O. [1 ,4 ]
Kunkel, F. [1 ]
Killer, C. [1 ]
Nicolai, D. [5 ]
Satheeswaran, G. [5 ]
Hollfeld, K. P. [5 ]
Schweer, B. [5 ]
Krings, T. [5 ]
Drews, P. [5 ]
Offermanns, G. [5 ]
Pavone, A. [1 ]
Svensson, J. [1 ]
Alonso, J. A. [6 ]
Burhenn, R. [1 ]
Wolf, R. C. [1 ]
机构
[1] Max Planck Inst Plasma Phys, D-17491 Greifswald, Germany
[2] Princeton Plasma Phys Lab, POB 451, Princeton, NJ 08543 USA
[3] Auburn Univ, Auburn, AL 36849 USA
[4] Tech Univ Denmark DTU, Dept Phys, PPFE, DK-2800 Lyngby, Denmark
[5] Forschungszentrum Julich, Inst Energie & Klimaforsch Plasmaphys, D-52425 Julich, Germany
[6] Asociac EURATOM CIEMAT, Lab Nacl Fus, Madrid, Spain
来源
REVIEW OF SCIENTIFIC INSTRUMENTS | 2018年 / 89卷 / 10期
关键词
PLASMAS; ARGON;
D O I
10.1063/1.5036536
中图分类号
TH7 [仪器、仪表];
学科分类号
0804 ; 080401 ; 081102 ;
摘要
This paper reports on the design and the performance of the recently upgraded X-ray imaging spectrometer systems, X-ray imaging crystal spectrometer and high resolution X-ray imaging spectrometer, installed at the optimized stellarator Wendelstein 7-X. High resolution spectra of highly ionized, He-like Si, Ar, Ti, and Fe as well as H-like Ar have been observed. A cross comparison of ion and electron temperature profiles derived from a spectral fit and tomographic inversion of Ar and Fe spectra shows a reasonable match with both the spectrometers. The also measured impurity density profiles of Ar and Fe have peaked densities at radial positions that are in qualitative agreement with the expectations from the He-like impurity fractional abundances, given the measured temperature profiles. Repeated measurements of impurity decay times have been demonstrated with an accuracy of 1 ms via injection of non-recycling Ti, Fe, and Mo impurities using a laser blow-off system.
引用
收藏
页数:7
相关论文
共 50 条
  • [21] Experience with the commissioning of the superconducting stellarator Wendelstein 7-X
    Bosch, Hans-Stephan
    Bykov, V.
    Brakel, R.
    van Eeten, P.
    Feist, J. -H.
    Gasparotto, M.
    Grote, H.
    Klinger, T.
    Nagel, M.
    Naujoks, D.
    Neilson, G. H.
    Rummel, T.
    Schacht, J.
    Vilbrandt, R.
    Wegener, L.
    Werner, A.
    FUSION ENGINEERING AND DESIGN, 2015, 96-97 : 22 - 27
  • [22] MODULAR STELLARATOR REACTORS AND PLANS FOR WENDELSTEIN 7-X
    GRIEGER, G
    BEIDLER, C
    HARMEYER, E
    LOTZ, W
    KISSLINGER, J
    MERKEL, P
    NUHRENBERG, J
    RAU, F
    STRUMBERGER, E
    WOBIG, H
    FUSION TECHNOLOGY, 1992, 21 (03): : 1767 - 1778
  • [23] The Superconducting Magnet System of the Stellarator Wendelstein 7-X
    Rummel, Thomas
    Risse, Konrad
    Ehrke, Gunnar
    Rummel, Kerstin
    John, Andre
    Moennich, Thomas
    Buscher, Klaus-Peter
    Fietz, Walter H.
    Heller, Reinhard
    Neubauer, Olaf
    Panin, Anatoly
    IEEE TRANSACTIONS ON PLASMA SCIENCE, 2012, 40 (03) : 769 - 776
  • [24] The superconducting magnet system for the Wendelstein 7-X Stellarator
    Sapper, J
    FUSION TECHNOLOGY, 1996, 30 (03): : 1234 - 1240
  • [25] The superconducting magnet system of the stellarator Wendelstein 7-X
    Rummel, Thomas
    Risse, Konrad
    Ehrke, Gunnar
    Rummel, Kerstin
    John, Andre
    Moennich, Thomas
    Buscher, Klaus-Peter
    Fietz, Walter
    Heller, Reinhard
    Neubauer, Olaf
    Panin, Anatoly
    2011 IEEE/NPSS 24TH SYMPOSIUM ON FUSION ENGINEERING (SOFE), 2011,
  • [26] Proposed neutron diagnostics for Wendelstein 7-X stellarator
    Elevant, T.
    Wolle, B.
    Weller, A.
    Review of Scientific Instruments, 1999, 70 (1 pt 2):
  • [27] Magnetic configuration effects on the Wendelstein 7-X stellarator
    A. Dinklage
    C. D. Beidler
    P. Helander
    G. Fuchert
    H. Maaßberg
    K. Rahbarnia
    T. Sunn Pedersen
    Y. Turkin
    R. C. Wolf
    A. Alonso
    T. Andreeva
    B. Blackwell
    S. Bozhenkov
    B. Buttenschön
    A. Czarnecka
    F. Effenberg
    Y. Feng
    J. Geiger
    M. Hirsch
    U. Höfel
    M. Jakubowski
    T. Klinger
    J. Knauer
    G. Kocsis
    A. Krämer-Flecken
    M. Kubkowska
    A. Langenberg
    H. P. Laqua
    N. Marushchenko
    A. Mollén
    U. Neuner
    H. Niemann
    E. Pasch
    N. Pablant
    L. Rudischhauser
    H. M. Smith
    O. Schmitz
    T. Stange
    T. Szepesi
    G. Weir
    T. Windisch
    G. A. Wurden
    D. Zhang
    Nature Physics, 2018, 14 : 855 - 860
  • [28] The Dedicated ICRH System for the Stellarator Wendelstein 7-X
    Ongena, J.
    Messiaen, A.
    Dumortier, P.
    Durodie, F.
    Kazakov, Ye O.
    Louche, F.
    Schweer, B.
    Vervier, M.
    Van Eester, D.
    Koch, R.
    Krivska, A.
    Lyssoivan, A.
    Van Schoor, M.
    Wauters, T.
    Borsuk, V.
    Neubauer, O.
    Schmitz, O.
    Offermans, G.
    Altenburg, Y.
    Baylard, C.
    Birus, D.
    Bozhenkov, S.
    Hartmann, D. A.
    Kallmeyer, J.
    Renard, S.
    Wolf, R.
    RADIOFREQUENCY POWER IN PLASMAS, 2014, 1580 : 105 - 112
  • [29] The magnet system of Wendelstein 7-X stellarator in operation
    Risse, Konrad
    Rummel, Thomas
    Bosch, Hans-Stephan
    Bykov, Victor
    Carls, Andre
    Fuellenbach, Frank
    Moennich, Thomas
    Nagel, Michael
    FUSION ENGINEERING AND DESIGN, 2018, 136 : 12 - 16
  • [30] Modular stellarator reactors and plans for Wendelstein 7-X
    Grieger, G.
    Beidler, C.
    Harmeyer, E.
    Lotz, W.
    Kisslinger, J.
    Merkel, P.
    Nuhrenberg, J.
    Rau, F.
    Strumberger, E.
    Wobig, H.
    Fusion Technology, 1992, 21 (3 pt 2B): : 1767 - 1778
12345