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Fusion Science and Technology Volume 50, 2006 - Issue 1
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Technical Paper

The Depths of Hydrogen and Helium Bubbles in Tungsten: A Comparison

K. O. E. HenrikssonUniversity of Helsinki, Accelerator Laboratory, P.O. Box 43, FI-00014 Finland
,
K. NordlundUniversity of Helsinki, Accelerator Laboratory, P.O. Box 43, FI-00014 Finland
,
A. KrasheninnikovUniversity of Helsinki, Accelerator Laboratory, P.O. Box 43, FI-00014 Finland
&
J. KeinonenUniversity of Helsinki, Accelerator Laboratory, P.O. Box 43, FI-00014 Finland
Pages 43-57 | Published online: 07 Apr 2017
 
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Abstract

The role of self-trapping and defect trapping of hydrogen and helium implanted into tungsten has been investigated using density functional theory (DFT) calculations, molecular dynamics simulations, and kinetic Monte Carlo simulations (KMCSs). The potential energy curves of hydrogen or helium pairs were obtained by molecular dynamics, and the energy of the most essential states was checked with DFT. Under assumptions of bubble formation due to trapping by similiar impurity atoms (self-trapping) or defects, KMCSs were carried out using parameters from implantation experiments. The results indicate that self-trapping plays no (or a very small) role in hydrogen bubble formation, whereas helium bubbles form due to strong self-trapping.

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Related Research Data

Diffusion of hydrogen in bcc tungsten studied with first principle calculations
Source: AIP Publishing
Helium flux effects on bubble growth and surface morphology in plasma-facing tungsten from large-scale molecular dynamics simulations
Source: IOP Publishing
He-ion induced surface morphology change and nanofuzz growth on hot tungsten surfaces*
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Competing kinetics and he bubble morphology in W.
Source: American Physical Society (APS)

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