Evolution of the Continuous-Atomistic Method for the Simulation of Processes of the Interaction between Heavy Ions and Metals


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Abstract

The evolution of the continuous-atomistic approach to the simulation of processes of the interaction between high-energy heavy ions and metals is presented in this paper. The continuous-atomistic model is described by two different classes of equations, namely, thermal-conductivity equations with a source in the thermal-spike model and equations of motion of material points irradiated with a beam in a model of molecular dynamics. A software package is developed for simulation within the framework of the continuous-atomistic model. The results of simulation of the processes of metal-target irradiation with high-energy heavy ions depending on the parameters of the source function and the electron–phonon interaction coefficient are obtained.

About the authors

B. Batgerel

Joint Institute for Nuclear Research; Institute of Physics and Technology

Email: zarif@jinr.ru
Russian Federation, Dubna, 141980; Ulaanbaator

I. V. Puzynin

Joint Institute for Nuclear Research

Email: zarif@jinr.ru
Russian Federation, Dubna, 141980

T. P. Puzynina

Joint Institute for Nuclear Research

Email: zarif@jinr.ru
Russian Federation, Dubna, 141980

I. G. Hristov

Sofia University “St. Kliment Ohridski”

Email: zarif@jinr.ru
Bulgaria, Sofia

R. D. Hristova

Sofia University “St. Kliment Ohridski”

Email: zarif@jinr.ru
Bulgaria, Sofia

Z. K. Tukhliev

Joint Institute for Nuclear Research

Email: zarif@jinr.ru
Russian Federation, Dubna, 141980

Z. A. Sharipov

Joint Institute for Nuclear Research

Author for correspondence.
Email: zarif@jinr.ru
Russian Federation, Dubna, 141980

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