Moving Gap Discrete Breather in Biatomic Crystal

Bebikhov Y. V.; Semenova M. N.; Abdullina D. U.; Dmitriev S. V.

Moving Gap Discrete Breather in Biatomic Crystal

Received 09 April 2025; accepted 27 August 2025; published 02 October 2025

2025, Vol. 21, no. 3, pp. 287-299

Author(s): Bebikhov Y. V., Semenova M. N., Abdullina D. U., Dmitriev S. V.

The biatomic crystal with CsCl structure is considered with the interatomic interactions described by the $\beta$-Fermi-Pasta-Ulam-Tsingou potential. The case of a large difference in the atomic masses of the components is analyzed when there is a gap in the phonon spectrum of the crystal. A spatially localized large-amplitude vibrational mode, called the discrete breather (DB), is found by applying a localization function to the delocalized nonlinear vibrational mode (DNVM). The DNVM and consequently the DB have frequencies in the gap of the phonon spectrum. It is shown that the DB can be set in motion using a physically motivated ansatz.

Keywords: crystal lattice, biatomic crystal, moving discrete breather, molecular dynamics

Citation: Bebikhov Y. V., Semenova M. N., Abdullina D. U., Dmitriev S. V., Moving Gap Discrete Breather in Biatomic Crystal, Rus. J. Nonlin. Dyn., 2025, Vol. 21, no. 3, pp. 287-299

DOI:10.20537/nd250903

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