Energetic atom collisions in solids induce shockwaves with complex morphologies. In this paper, we establish the existence of a morphological transition in such cascades. The order parameter of the morphology is defined as the exponent, $b$, in the defect production curve as a function of cascade energy ($N_F$$ \sim$$E_{MD}^b$). Response of different bcc metals can be compared in a consistent energy domain when the energy is normalized by the transition energy, $\mu$, between the high- and the low-energy regime. Using Cr, Fe, Mo and W data, an empirical formula of $\mu$ as a function of displacement threshold energy, $E_d$, is presented for bcc metals.
Revised: May 21, 2015 |
Published: May 18, 2015
Citation
Setyawan W., A. Selby, N. Juslin, R.E. Stoller, B.D. Wirth, and R.J. Kurtz. 2015.Cascade morphology transition in bcc metals.Journal of Physics: Condensed Matter 27, no. 22:Article No. 225402.PNNL-SA-101067.doi:10.1088/0953-8984/27/22/225402