4.5 Article

Investigation of bright and dark solitons in α, β-Fermi Pasta Ulam lattice

Journal

CHINESE PHYSICS B
Volume 30, Issue 2, Pages -

Publisher

IOP Publishing Ltd
DOI: 10.1088/1674-1056/abbbf3

Keywords

Fermi Pasta Ulam; paradox; bright; dark

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The Hamiltonian of alpha, beta-Fermi Pasta Ulam lattice is considered and the discrete equation of motion is obtained through the Hamilton-Jacobi formalism. The extended Korteweg-de Vries equation is derived and the nonlinear Schrodinger amplitude equation is obtained through the reductive perturbative technique. Numerical simulations show that dark solitons conserve their amplitude and shape after collisions, while bright solitons can be traced in the lattice under certain conditions.
We consider the Hamiltonian of alpha, beta-Fermi Pasta Ulam lattice and explore the Hamilton-Jacobi formalism to obtain the discrete equation of motion. By using the continuum limit approximations and incorporating some normalized parameters, the extended Korteweg-de Vries equation is obtained, with solutions that elucidate on the Fermi Pasta Ulam paradox. We further derive the nonlinear Schrodinger amplitude equation from the extended Korteweg-de Vries equation, by exploring the reductive perturbative technique. The dispersion and nonlinear coefficients of this amplitude equation are functions of the alpha and beta parameters, with the beta parameter playing a crucial role in the modulational instability analysis of the system. For beta greater than or equal to zero, no modulational instability is observed and only dark solitons are identified in the lattice. However for beta less than zero, bright solitons are traced in the lattice for some large values of the wavenumber. Results of numerical simulations of both the Korteweg-de Vries and nonlinear Schrodinger amplitude equations with periodic boundary conditions clearly show that the bright solitons conserve their amplitude and shape after collisions.

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