We performed molecular dynamics (MD) simulation of edge dislocations in BCC
metal Mo with 1/2[1 1 1] Burgers vector gliding on (1 1 0) plane using the
Finnis-Sinclair N-body empirical potential and periodic boundary condition
s (PBC). The profile of dislocation line, extracted from atomic displacemen
ts during MD simulation, suggests a dominant mechanism of double-kink nucle
ation, without appreciable kink migration. This observation is consistent w
ith further simulations in which dislocations with pre-existing kinks are o
bserved to move at the same velocity as the initially straight dislocations
. Our results show a linear stress dependence of the dislocation velocity a
nd a decrease of mobility with increasing temperature, both features interp
reted as signifying that the simulations pertain to the viscous phonon drag
regime of dislocation mobility. (C) 2001 Elsevier Science B.V. All rights
reserved.