Resonant second-harmonic generation accompanying nonlinear Love-wave propagation in an isotropic waveguide

D. Xi
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引用次数: 1

Abstract

In this article we have studied resonant second-harmonic generation accompanying nonlinear Love-wave propagation in an isotropic waveguide consisting of a solid layer and a semi-infinite solid. Generally, the amplitude of the second harmonic arising from the self-interaction of shear wave is independent of propagation distance, i.e., there is no effect of cumulative growth. However, for Love-wave propagation case, there are two shear partial waves in the solid layer deposited on the semi-infinite solid, and the cross-interaction between two shear waves may cause the "resonance" of the driving second harmonic once the phase velocity of the Love-wave equals the longitudinal velocity of the solid layer. Through second-harmonic boundary conditions and initial conditions of excitation, we formally obtain the analytical expressions for the case of resonant second-harmonic generation. The present analysis yields clearly physical insight into the process of resonant second-harmonic generation accompanying nonlinear Love-wave propagation not previously available.
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在各向同性波导中伴随非线性love波传播的共振二次谐波产生
本文研究了由固体层和半无限固体层组成的各向同性波导中非线性Love-wave传播的谐振二次谐波的产生。一般情况下,横波自相互作用产生的二次谐波振幅与传播距离无关,即不存在累积增长的影响。然而,对于Love-wave传播情况,在半无限固体上沉积的固体层中存在两个剪切分波,当Love-wave的相速度等于固体层的纵速时,两个剪切分波之间的相互作用可能引起驱动次谐波的“共振”。通过二次谐波边界条件和激励的初始条件,我们正式得到了谐振二次谐波产生的解析表达式。目前的分析对伴随非线性Love-wave传播的共振二次谐波产生过程提供了清晰的物理见解。
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