Karl D. Hammond scite author profile

Molecular dynamics simulations reveal sub-surface mechanisms likely involved in the initial formation of nanometre-sized ‘fuzz’ in tungsten exposed to low-energy helium plasmas. Helium clusters grow to over-pressurized bubbles as a result of repeated cycles of helium absorption and Frenkel pair formation. The self-interstitials either reach the surface as isolated adatoms or trap at the bubble periphery before organizing into prismatic 〈1 1 1〉 dislocation loops. Surface roughening occurs as single adatoms migrate to the surface, prismatic loops glide to the surface to form adatom islands, and ultimately as over-pressurized gas bubbles burst.

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Helium, hydrogen, and fuzz in plasma-facing materials

Hammond

2017

Mater. Res. Express

123

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Large-scale atomistic simulations of low-energy helium implantation into tungsten single crystals

et al. 2018

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Dynamics of small mobile helium clusters near tungsten surfaces

Hammond

Wirth

et al. 2014

Surface Science

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Karl D. Hammond

Investigation into the shape selectivity of zeolite catalysts for biomass conversion

Tungsten surface evolution by helium bubble nucleation, growth and rupture

Helium, hydrogen, and fuzz in plasma-facing materials

Large-scale atomistic simulations of low-energy helium implantation into tungsten single crystals

Dynamics of small mobile helium clusters near tungsten surfaces

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