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Non-holonomic constraints and their impact on discretizations of Klein-Gordon lattice dynamical models

We explore a new type of discretizations of lattice dynamical models of the Klein-Gordon type relevant to the existence and long-term mobility of nonlinear waves. The discretization is based on non-holonomic constraints and is shown to retrieve the "proper" continuum limit of the model. Such discretizations are useful in exactly preserving a discrete analogue of the momentum. It is also shown that for generic initial data, the momentum and energy conservation laws cannot be achieved concurrently. Finally, direct numerical simulations illustrate that our models yield considerably higher mobility of strongly nonlinear solutions than the well-known "standard" discretizations, even in the case of highly discrete systems when the coupling between the adjacent nodes is weak. Thus, our approach is better suited for cases where an accurate description of mobility for nonlinear traveling waves is important.

preprint2015arXivOpen access
Panayotis KevrekidisVakhtang PutkaradzeZoi Rapti
nlin.PS
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Panayotis KevrekidisVakhtang PutkaradzeZoi Rapti

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