Structure and mobility of defects formed from collision cascades in MgO
journal contribution
posted on 2006-11-15, 17:14authored byB.P. Uberuaga, Roger Smith, A.R. Cleave, F. Montalenti, G. Henkelman, R.W. Grimes, A.F. Voter, K.E. Sickafus
We study radiation-damage events in MgO on experimental time scales by augmenting molecular
dynamics cascade simulations with temperature accelerated dynamics, molecular statics, and density
functional theory. At 400 eV, vacancies and mono- and di-interstitials form, but often annihilate within
milliseconds. At 2 and 5 keV, larger clusters can form and persist. While vacancies are immobile,
interstitials aggregate into clusters (In) with surprising properties; e.g., an I4 is immobile, but an impinging
I2 can create a metastable I6 that diffuses on the nanosecond time scale but is stable for years.
History
School
Science
Department
Mathematical Sciences
Pages
329893 bytes
Citation
UBERUAGA, B.P. ... et al, 2004. Structure and mobility of defects formed from collision cascades in MgO. Physical Review Letters 92 (11), p. 115505-1 - 115505-4