https://doi.org/10.1140/epjb/e2016-70090-x
Regular Article
A study of void size growth in nonequilibrium stochastic systems of point defects
Institute of Applied Physics, National Academy of
Sciences of Ukraine, 58
Petropavlovskaya St., 40000
Sumy,
Ukraine
a e-mail: dikh@ipfcentr.sumy.ua
Received:
9
February
2016
Published online:
16
May
2016
We study properties of voids growth dynamics in a stochastic system of point defects in solids under nonequilibrium conditions (sustained irradiation). It is shown that fluctuations of defect production rate (external noise) increase the critical void radius comparing to a deterministic system. An automodel regime of void size growth in a stochastic system is studied in detail. Considering a homogeneous system, it is found that external noise does not change the universality of the void size distribution function; the mean void size evolves according to classical nucleation theory. The noise increases the mean void size and spreads the void size distribution. Studying dynamics of spatially extended systems it was shown that vacancies remaining in a matrix phase are able to organize into vacancy enriched domains due to an instability caused by an elastic lattice deformation. It is shown that dynamics of voids growth is defined by void sinks strength with void size growth exponent varying from 1/3 up to 1/2.
Key words: Statistical and Nonlinear Physics
© EDP Sciences, Società Italiana di Fisica, Springer-Verlag, 2016
