PhysRevE.79.056606.pdf (563.51 kB)
Nonlinear layered lattice model and generalized solitary waves in imperfectly bonded structures
journal contribution
posted on 2014-09-02, 10:18 authored by Karima KhusnutdinovaKarima Khusnutdinova, Alexander M. Samsonov, Alexey S. ZakharovWe study nonlinear waves in a two-layered imperfectly bonded structure using a nonlinear lattice model. The
key element of the model is an anharmonic chain of oscillating dipoles, which can be viewed as a basic lattice
analog of a one-dimensional macroscopic waveguide. Long nonlinear longitudinal waves in a layered lattice
with a soft middle or bonding layer are governed by a system of coupled Boussinesq-type equations. For this
system we find conservation laws and show that pure solitary waves, which exist in a single equation and can
exist in the coupled system in the symmetric case, are structurally unstable and are replaced with generalized
solitary waves.
Funding
We thank E.S. Benilov, R.H.J. Grimshaw and A.B. Movchan for useful discussions. The research was supported by the UK EPSRC under Grant No. EP/D035570/1.
History
School
- Science
Department
- Mathematical Sciences
Published in
Physical Review E: Statistical, Nonlinear, and Soft Matter PhysicsVolume
79Pages
Art No. 056606 - ?Citation
KHUSNUTDINOVA, K.R., SAMSONOV, A.M. and ZAKHAROV, A.S., 2009. Nonlinear layered lattice model and generalized solitary waves in imperfectly bonded structures. Physical Review E, 79, 056606, 14pp.Publisher
© American Physical SocietyVersion
- VoR (Version of Record)
Publication date
2009ISSN
1539-3755Publisher version
Language
- en
