Evolution of bubble in tungsten irradiated by deuterium of low energy and high flux by molecular dynamics simulations

LAMMPS - A flexible simulation tool for particle-based materials modeling at the atomic, meso, and continuum scales

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Panorama of “fuzz” growth on tungsten surface under He irradiation

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Understanding the release of helium atoms from nanochannel tungsten: A molecular dynamics simulation

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Retention/reflection of hydrogen and surface evolution during cumulative bombardment of low-energy hydrogen on tungsten: A molecular dynamics study

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Evolution of helium bubbles below different tungsten surfaces under neutron irradiation and non-irradiation conditions

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Mechanism for orientation dependence of blisters on W surface exposed to D plasma at low temperature

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Subsurface deuterium bubble formation in W due to low-energy high flux deuterium plasma exposure

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Influence of tungsten microstructure and ion flux on deuterium plasma-induced surface modifications and deuterium retention

(2015) L. Buzi et al.   JOURNAL OF NUCLEAR MATERIALS

Molecular dynamics simulation of the formation, growth and bursting of bubbles in tungsten exposed to high fluxes of low energy deuterium

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Nanostructures and pinholes on W surfaces exposed to high flux D plasma at high temperatures

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Helium bubble bursting in tungsten

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Influence of particle flux density and temperature on surface modifications of tungsten and deuterium retention

(2014) Luxherta Buzi et al.   JOURNAL OF NUCLEAR MATERIALS

Deuterium retention and morphological modifications of the surface in five grades of tungsten after deuterium plasma exposure

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Clustering of H and He, and their effects on vacancy evolution in tungsten in a fusion environment

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A review of modelling and simulation of hydrogen behaviour in tungsten at different scales

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Enhanced modification of tungsten surface by nanostructure formation during high flux deuterium plasma exposure

(2013) H.Y. Xu et al.   JOURNAL OF NUCLEAR MATERIALS

Molecular dynamics simulation of deuterium trapping and bubble formation in tungsten

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Hydrogen behaviors in molybdenum and tungsten and a generic vacancy trapping mechanism for H bubble formation

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Tungsten as material for plasma-facing components in fusion devices

(2011) V. Philipps   JOURNAL OF NUCLEAR MATERIALS

Visualization and analysis of atomistic simulation data with OVITO–the Open Visualization Tool

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The ideal tensile strength and deformation behavior of a tungsten single crystal

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Vacancy trapping mechanism for hydrogen bubble formation in metal

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