A series of kinetic Monte Carlo computer experiments performed on idealized systems clearly reveals the dramatic effects of 1-dimensional migration of self-interstitial atom crowdion clusters on the stability of void lattices. In the presence of migrating self-interstitial atoms, void lattices were shown to be unstable under pure 3-dimensional self-
A series of kinetic Monte Carlo computer experiments performed on idealized systems clearly reveals the dramatic effects of 1-dimensional migration of self-interstitial atom crowdion clusters on the stability of void lattices. In the presence of migrating self-interstitial atoms, void lattices were shown to be unstable under pure 3-dimensional self-