Effect of discrete breather ensembles on the heat capacity of nonlinear one-dimensional crystals.

Authors

  • Morkina Alina Yurievna Ufa University of Science and Technology
  • Bebikhov Yuri Vladimirovich Mirny Polytechnic Institute (branch) of North-Eastern Federal University
  • Rakhmatullina Zhanna Gennadievna Institute for Problems of Superplasticity of Metals RAS
  • Semenova Maria Nikolaevna Institute for Problems of Superplasticity of Metals RAS
  • Dmitriev Sergey Vladimirovich Ufa Federal Research Center RAS

Keywords:

discrete breathers, local potential, molecular dynamics, heat capacity

Abstract

There are numerous works studying the processes of generation of crystal lattice defects due to the fact that this process is the root cause of a change in a set of properties of a material. An atom’s abandonment of the equilibrium state always takes place by overcoming potential barriers through a transition from a dynamic defect to a topological one. Examples of dynamic defects are fluctuations and discrete breathers. Experimental and molecular dynamics studies have confirmed that discrete breathers (DBs) can be excited in various crystal lattices, and when interacting with point defects, they can reduce the potential barrier to their migration. In this work, we model a nonlinear one-dimensional crystal with particles whose interaction is described by a linear interparticle and nonlinear local potential. DBs in quantities from 1 to 7 and with an oscillation amplitude from 0.5 to 3 were introduced into a crystal with a hard or soft type of nonlinearity. It was found that the number of DBs in the ensemble does not affect the change in heat capacity, but a dependence of the heat capacity on the specified amplitude of the DB oscillation was revealed. In the case of a soft (hard) type of nonlinearity, the value of the heat capacity increases (decreases) with increasing oscillation amplitude

Author Biographies

Morkina Alina Yurievna, Ufa University of Science and Technology

postgraduate student at the Institute of Metal Superplasticity Problems of the Russian Academy of Sciences, junior researcher at the Research Laboratory “Metals and Alloys under Extreme Impacts”, Assistant Professor at the Department of Materials Science and Physics of Metals

Bebikhov Yuri Vladimirovich, Mirny Polytechnic Institute (branch) of North-Eastern Federal University

Candidate of Physical and Mathematical Sciences, Associate Professor at the Mirny Polytechnic Institute (branch) of North-Eastern Federal Universit

Rakhmatullina Zhanna Gennadievna, Institute for Problems of Superplasticity of Metals RAS

Candidate of Physical and Mathematical Sciences, junior researcher at the Institute for Problems of Superplasticity of Metals RAS

Semenova Maria Nikolaevna, Institute for Problems of Superplasticity of Metals RAS

Candidate of Physical and Mathematical Sciences, junior researcher at the Institute for Problems of Superplasticity of Metals RAS, Associate Professor at the Mirny Polytechnic Institute (branch) of North-Eastern Federal University, Russia.

Dmitriev Sergey Vladimirovich, Ufa Federal Research Center RAS

Doctor of Physical and Mathematical Sciences, Professor, Head of the Laboratory “Nonlinear Dynamics of Molecules and Crystals” of the Institute of Molecule and Crystal Physics, Ufa Federal Research Center RAS, Ru

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Published

2024-15-01

Issue

Vol. 27 No. 4(102) (2023)

Section

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