Eur. Phys. J. Plus (2020) 135: 769
https://doi.org/10.1140/epjp/s13360-020-00794-x

Regular Article

Integrable nonlinear triplet lattice system with the combined inter-mode couplings

Department for Theory of Nonlinear Processes in Condensed Matter, Bogolyubov Institute for Theoretical Physics, The National Academy of Sciences of Ukraine, 14-B Metrologichna Street, 03143, Kyïv, Ukraine

^a vakhnenko@bitp.kiev.ua

Received: 4 July 2020
Accepted: 19 September 2020
Published online: 29 September 2020

Abstract

In this article we introduce the nonlinear model of three dynamical subsystems coupled both in their kinetic and potential parts. Due to the quasi-one-dimensional spatial structure of its underlying lattice, the model grasps several degrees of freedom capable to imitate the dynamical behavior of long macromolecules both natural and synthesized origins. The model admits a clear Hamiltonian formulation with the standard form of fundamental Poisson brackets and it demonstrates the complex-conjugate symmetry between two subsystems of a Toda type. The integrability of system equations is supported by their zero-curvature representation based upon the auxiliary linear problem with the relevant spectral operator of third order. In view of these facts, we have developed an appropriate twofold Darboux–Bäcklund dressing technique capable to generate the nontrivial crop solution embracing all three coupled subsystems. The explicit crop solution to the nonlinear model is found to be of a pronounced pulson character.