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Growth Rate Effects on the Formation of Dislocation Loops Around Deep Helium Bubbles in Tungsten

Luis Sandoval, Danny Perez, Blas P. Uberuaga, Arthur F. Voter

Fusion Science and Technology / Volume 71 / Number 1 / January 2017 / Pages 1-6

Technical Paper / dx.doi.org/10.13182/FST16-116

First Online Publication:November 15, 2016
Updated:January 18, 2017

The growth process of spherical helium bubbles located 6 nm below a (100) surface is studied using molecular dynamics and parallel replica dynamics simulations, over growth rates from 106 to 1012 helium atoms per second. Slower growth rates lead to a release of pressure and lower helium content as compared with fast growth cases. In addition, at slower growth rates, helium bubbles are not decorated by multiple dislocation loops, as these tend to merge or emit given sufficient time. At faster rates, dislocation loops nucleate faster than they can emit, leading to a more complicated dislocation structure around the bubble.