Abstract
The structure of the ablation clouds surrounding carbon pellets injected into the ECR-heated Wendelstein 7-AS plasma has been studied. Snapshot and integrated photographs obtained in the spectral ranges containing the CII (720 ± 5 nm and 723 ± 1 nm) and CIII (770 ± 5 nm) spectral lines were analyzed over a wide range of the bulk plasma parameters. It is found that the cloud luminosity profile along the magnetic field is exponential with either one or two characteristic decay lengths of about a few millimeters and a few centimeters. The smaller length corresponds to the zone closer to the pellet. There is good agreement between the characteristic decay lengths deduced from snapshot and integrated photographs. The characteristic decay lengths were obtained along the entire pellet trajectory and were found to change weakly in the central region and to grow at the plasma periphery (generally, in inverse proportion to the plasma electron density). In the central region, the characteristic decay lengths are about a few millimeters and 1 cm. They depend weakly on the bulk plasma temperature and decrease with increasing bulk plasma density. These lengths agree fairly well with estimates of the ionization length of carbon ions into the C2+, C3+, and C4+ charge states, respectively, assuming that ionization is provided by the hot electrons of the bulk plasma and that the cloud expands with the ion-acoustic velocity at a temperature of ∼1 eV. The results obtained prove that the cloud structure in the vicinity of the pellet is mainly determined by the bulk plasma electrons.
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References
R. K. Fisher, J. S. Leffler, A. M. Howald, et al., Fusion Technol. 13, 536 (1988).
V. Yu. Sergeev, B. V. Kuteev, O. A. Bakhareva, et al., IPP Report No. 10 (Max Planck Institut für Plasmaphysik, IPP-Euroatom Association, Garching, 2002).
V. Yu. Sergeev, O. A. Bachareva, B. V. Kuteev, et al., in Proceedings of the 29th EPS Conference on Controlled Fusion and Plasma Physics, Montreux, 2002, ECA 26B(2), 120 (2002).
B. V. Kuteev, A. Yu. Kostryukov, and O. A. Bakhareva, Zh. Tekh. Fiz. 72(8), 1 (2002) [Tech. Phys. 47, 935 (2002)].
L. L. Lyel, K. Buchl, G. Pautasso, et al., Nucl. Fusion 39, 791 (1999).
D. Kh. Morozov, V. I. Gervids, I. Yu. Senichenkov, et al., Nucl. Fusion 44, 252 (2004).
S. M. Egorov, V. A. Galkin, V. G. Kapralov, et al., in Proceedings of the 13th International Conference on Plasma Physics and Controlled Nuclear Fusion Research, Washington, 1990, Nucl. Fusion Suppl. 1, 599 (1991).
P. T. Lang, P. Cierpka, R. S. Lang, et al., Rev. Sci. Instrum. 65, 2316 (1994).
NIST Atomic Spectra Database, http://physics.nist.gov/cgi-bin/AtData/main-asd.
L. Ledl, IPP Report No. III-257 (Max Planck Institut für Plasmaphysik, IPP-Euroatom Association, Garching, 1999).
V. Yu. Sergeev, V. M. Timokhin, O. A. Bakhareva, et al., in Proceedings of the 28 EPS Conference on Controlled Fusion and Plasma Physics, Funchal, 2001, ECA 25A, 1953 (2001).
K. L. Bell, H. B. Gilbody, J. G. Hughes, et al., J. Phys. Chem. Ref. Data 12, 891 (1983).
V. I. Gervids, V. I. Kogan, and D. Kh. Morozov, Fiz. Plazmy 27, 994 (2001) [Plasma Phys. Rep. 27, 938 (2001)].
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Translated from Fizika Plazmy, Vol. 31, No. 4, 2005, pp. 316–326.
Original Russian Text Copyright © 2005 by Bakhareva, Sergeev, Kuteev, Skokov, Timokhin, Burhenn, W7-AS Team.
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Bakhareva, O.A., Sergeev, V.Y., Kuteev, B.V. et al. Studies of the structure of C pellet ablation clouds in W7-AS. Plasma Phys. Rep. 31, 282–291 (2005). https://doi.org/10.1134/1.1904144
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DOI: https://doi.org/10.1134/1.1904144