Symplectic analysis for wave propagation in one-dimensional nonlinear periodic structures

A rigorous numerical technique for simulation of electromagnetic wave propagation in one-dimensional Kerr-nonlinear optical structures is presented. Maxwell's equations are solved in the frequency domain and transformed into a new system that can be easily integrated. The technique is applied to mod

## Abstract The objective of the research conducted by the authors is to explore the feasibility of determining reliable __in situ__ values of shear modulus as a function of strain. In this paper the meaning of the material stiffness obtained from impact and harmonic excitation tests on a surface s

The waves considered here are solutions of a first-order strictly hyperbolic system of differential equations, written in the form \* This work was performed at the Courant Institute and supported by the Office of Naval Research under Contract No. N00014-67-A-0467-0030. Reproduction in whole or in p

We use an asymptotic expansion introduced by Benilov and Pelinovski ȋ to study the propagation of a weakly nonlinear hyperbolic wave pulse through a stationary random medium in one space dimension. We also study the scattering of such a wave by a background scattering wave. The leading-order solutio