The New Molecular Dynamics Approach to Study Radiation Processes

Authors

  • N. Mykytenko South-Ukrainian National Pedagogical University after K.D. Ushinskij

DOI:

https://doi.org/10.15330/pcss.16.3.453-457

Keywords:

molecular dynamics, defects in polyatomic crystals

Abstract

A new modification of the classic method of molecular dynamics is proposed. Method allows clarifying the input of different intervals of the stationary energy spectrum of the incident particles to the final radiation effect. A shock function is introduced that describes the transfer of the corresponding pulse to the crystal atom. The action of shock function is determined by the random function that provides the necessary frequency and the magnitude of shocks. The approach is demonstrated on the example of the ion irradiation of trihydric crystal. It was found that in certain energy intervals “heavy clusters” are formed.

References

J. Edward, Jr. Smiley, Molecular Dynamics Simulations of Atomic and Cluster Bombarded Surfaces (The Pennsylvania State University, School of chemistry, 2006).

R.S. Nelson, The Observation of Atomic Collisions in Crystalline Solids, Series “Defects in crystalline solids” (Eds. S. Amelinskx, R. Gevers, J. Nihoul) (North-Holland Publishing Company, 2013).

P.M. Derlet, D. Nguyen-Manh, S.L. Dudarev, Phys. Rev. B 76, 054107 (2007).

N. Mykytenko, D. Fink, A. Kiv, Journal Comp. Sci. 6, 34 (2015).

D. Fink et al, Int. J. Nanosci. 04, 965 (2005).

D. Fink, I. Klinkovich, O. Bukelman, R.S. Marks, A. Kiv, D. Fuks, W.R. Fahrner, L. Alfonta, Biosensors and Bioelectronics 24, 2702 (2009).

J. Honerkamp, Statistical Physics: An Advanced Approach with Applications, 3rd edition (Springer, 2012).

M. Griebel, S. Knapek, G. Zumbusch, Numerical Simulation in Molecular Dynamics (Springer, 2007).

E. Hairer, Ch. Lubich, G. Wanner, Acta Numerica 1, 399 (2003).

Y. Li, T.R. Shan, T. Liang, S.B. Sinnott, S.R. Phillpot, J. Phys.: Condens. Matter 24(23), 5403 (2012).

D.E. Smirnova, S.V. Starikov, V.V. Stegailov, J. Phys.: Condens. Matter 24(1), 015702 (2012).

V.V. Ogorodnikov, V.V. Pokropivny, Phys. Status Solidi B 166(1), 69 (1991).

K. Albe, R. Benedek, D. N. Seidman, R.S. Averback, Classical Interatomic Potential for Nb-Alumina Interfaces, MRS 654 (2000).

J.M. Winey, Alison Kubota, Y.M. Gupta, Modelling Simul. Mater. Sci. Eng. 17, 055004 (2009).

A. Troelsen, C# 2010 and the.NET 4 Platform, 5th Edition, (APRESS, 2010).

P.J. Deitel, C# 2010 for Programmers, 4th ed. (Prentice Hall, 2010).

Downloads

Published

2015-09-15

How to Cite

Mykytenko, N. (2015). The New Molecular Dynamics Approach to Study Radiation Processes. Physics and Chemistry of Solid State, 16(3), 453–457. https://doi.org/10.15330/pcss.16.3.453-457

Issue

Vol. 16 No. 3 (2015)

Section

Scientific articles
Crossref
Scopus
Google Scholar
Europe PMC