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Study of Nanostructured Layer Growth on Plasma-Facing Materials Irradiated with Helium Plasma

S. D. Fedorovich, Yu. V. Martynenko, V. P. Budaev, D. I. Kavyrshin, A. V. Karpov, Quang Vinh Tran, M. V. Lukashevsky, M. Yu. Nagel, K. A. Rogozin, A. A. Konkov

Fusion Science and Technology / Volume 80 / Number 7 / October 2024 / Pages 833-842

Research Article / dx.doi.org/10.1080/15361055.2024.2339555

Received:September 2, 2023
Accepted:March 25, 2024
Published:September 4, 2024

Tungsten and stainless steel samples were irradiated with stationary helium plasma in the plasma linear multicusp plasma device. The surface of the material is modified under the influence of helium plasma with the formation of nanostructures and microstructures on the surface. The fluence of helium ions equal to 8 × 1027 ions/m2 was achieved on the tungsten sample. Depending on the helium ion fluence, fuzzlike layers, loops, and bubbles of 20- to 500-nm scale were formed on the tungsten surface. The fuzz layer thickness depends on the duration of plasma irradiation in a wide range of fluence. Saturation of the growth of the thickness of the tungsten fuzz layer was observed at a fluence of more than 8 × 1026 ions/m2. The growth of microstructures and nanostructures on the surface of stainless steel irradiated with helium plasma was observed. The growth of nanostructured layers is explained by a theoretical model considering the dynamics of adatoms under the influence of plasma.