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HERO ID
4832955
Reference Type
Journal Article
Title
Experimental mechanistic investigation of the nanostructuring of tungsten with low energy helium plasmas
Author(s)
Fiflis, P; Connolly, N; Ruzic, DN
Year
2016
Is Peer Reviewed?
Yes
Journal
Journal of Nuclear Materials
ISSN:
0022-3115
Volume
482
Page Numbers
201-209
DOI
10.1016/j.jnucmat.2016.10.015
Web of Science Id
WOS:000387966100026
Abstract
Helium ion bombardment of tungsten at temperatures between approximately one third and one half of its melting point has shown growth of nanostructures colloquially referred to as "fuzz". The nanostructures take the form of thin tendrils of diameter about 30 nm and grow out of the bulk material. Tungsten will and does compose one of the key materials for plasma facing components ( PFCs) in fusion reactors. The formation of nanostructured fuzz layers on PFCs would be detrimental to the performance of the reactor, and must therefore be avoided. Previous experiments have shown evidence that tungsten fuzz is initially grown by loop punching of helium bubbles created in the bulk. However, once the tendrils grow to sufficient length, the tendrils should intercept the entire helium flux, halting the production of fuzz. Fuzz continues to grow though. To increase the understanding of the mechanisms of tungsten fuzz formation, and thereby aid the avoidance of its production, a series of tests were performed to examine the validity of several theories regarding later stage tungsten fuzz growth. Tests showed that the fuzz formation was dependent solely on the bombardment of helium ions, and not on electric fields, or adatom diffusion. Experiments employing a tungsten coated molybdenum sample indicate the presence of a strong mixing layer and strongly suggest that tungsten fuzz growth continues to occur from the bottom up even as the tendrils grow in size. Tests also show a similarity between different metals exposed to helium ion fluxes where the ratio of bubble diameter to tendril diameter is constant. (C) 2016 Elsevier B.V. All rights reserved.
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Molybdenum
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