Magras - Facility for modelling of plasma facing beryllium sputtering and re-deposition

被引：10

作者：

Zimin, AM

Elistratov, NG

Kolbasov, BN

Kozlov, OS

Kurochkin, YY

Milyukov, DA

Vasiliev, NN

机构：

[1] NE Bauman Moscow State Tech Univ, Dept E8, Moscow 107005, Russia

[2] Kurchatov Inst, Russell Res Ctr, Moscow 123182, Russia

[3] John Stock Co, Inst Beryllium, Moscow 141070, Russia

来源：

PLASMA DEVICES AND OPERATIONS | 1999年 / 8卷 / 01期

关键词：

fusion reactor; plasma-surface interaction; magnetron; beryllium sputtering; erosion products;

D O I：

10.1080/10519999908228143

中图分类号：

TL [原子能技术]; O571 [原子核物理学];

学科分类号：

0827 ; 082701 ;

摘要：

MAGRAS - magnetron facility for simulation of plasma facing beryllium sputtering and re-deposition is described. Optimization of its systems and components along with magnetron discharge phenomenology and its energy characteristics are considered. Studies performed at the facility can be used in designing plasma facing components of International Thermonuclear Experimental Reactor: in particular for their material selection, assessment of the life-time and determination of the near-wall plasma composition.

引用

页码：15 / 38

页数：24

共 31 条

[1] Modeling of beryllium sputtering and re-deposition in fusion reactor plasma facing components
Zimin, AM
Danelyan, LS
Elistratov, NG
Gureev, VM
Guseva, MI
Kolbasov, BN
Kulikauskas, VS
Stolyarova, VG
Vasiliev, NN
Zatekin, VV
JOURNAL OF NUCLEAR MATERIALS, 2004, 329 : 855 - 859
[2] Erosion and re-deposition behavior of plasma facing materials due to tokamak plasma disruption
Liu, X
Xu, ZY
Chen, JM
Yan, LW
Liu, Y
JOURNAL OF NUCLEAR MATERIALS, 2002, 307 : 84 - 88
[3] Modelling of tungsten re-deposition coefficient
Tskhakaya, D.
Groth, M.
JOURNAL OF NUCLEAR MATERIALS, 2015, 463 : 624 - 628
[4] Re-deposition of ITER-grade Be on plasma gun facility QSPA-Be: Characterization & plasma cleaning
Dmitriev, A.M.
Razdobarin, A.G.
Snigirev, L.A.
Elets, D.I.
Bukreev, I.M.
Babinov, N.A.
Varshavchik, L.A.
Mukhin, E.E.
Samsonov, D.S.
Yu. Tolstyakov, S.
Chernakov, An.P.
Kovalenko, D.V.
Pogkovyrov, V.L.
Yaroshevskaya, A.D.
Barsuk, V.A.
Kupriyanov, I.B.
Bukhovets, V.L.
Gorodetsky, A.E.
Markin, A.V.
Zalavutdinov, R.Kh.
Arkhipushkin, I.A.
Krat, S.A.
Polskij, V.I.
Gurbich, A.F.
Nuclear Materials and Energy, 2022, 30
[5] Re-deposition of ITER-grade Be on plasma gun facility QSPA-Be: Characterization & plasma cleaning
Dmitriev, A. M.
Razdobarin, A. G.
Snigirev, L. A.
Elets, D., I
Bukreev, I. M.
Babinov, N. A.
Varshavchik, L. A.
Mukhin, E. E.
Samsonov, D. S.
Tolstyakov, S. Yu
Chernakov, An P.
Kovalenko, D., V
Pogkovyrov, V. L.
Yaroshevskaya, A. D.
Barsuk, V. A.
Kupriyanov, I. B.
Bukhovets, V. L.
Gorodetsky, A. E.
Markin, A., V
Zalavutdinov, R. Kh
Arkhipushkin, I. A.
Krat, S. A.
Polskij, V., I
Gurbich, A. F.
NUCLEAR MATERIALS AND ENERGY, 2022, 30
[6] Effect of Re-Deposition Layers in Plasma-Facing Wall on Tritium Retention and Tritium Depth Profile
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PLASMA AND FUSION RESEARCH, 2019, 14
[7] Modelling of carbon erosion and re-deposition for the EAST movable limiter
谢海
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孙继忠
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[8] Modelling of carbon erosion and re-deposition for the EAST movable limiter
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Ding, Rui
Chen, Junling
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PLASMA SCIENCE & TECHNOLOGY, 2017, 19 (04)
[9] Formation of graphite re-deposition layer by hydrogen RF plasma
Katayama, K
Nagase, H
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Kodama, Y
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THIN SOLID FILMS, 2004, 457 (01) : 151 - 157
[10] Plasma deposition of beryllium carbide via magnetron sputtering
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Morosoff, NC
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PROCEEDINGS OF THE 4TH IEA INTERNATIONAL WORKSHOP ON BERYLLIUM TECHNOLOGY FOR FUSION, 2000, 6462 : 284 - 284

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