电流存在时波状弹性底部引起的布拉格共振

Rajesh Ranjan Dora, Sanjay Kumar Mohanty
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摘要

本文探讨了均质流体中的布拉格散射,重点研究了在匀速水流作用下斜波与起伏弹性底面之间的相互作用。它利用线性波理论分析了匀速水流和弹性底板对波相互作用的影响,其中流体以两种模式传播:自由表面模式和挠曲模式。研究采用分析推导和数值探索各种物理参数的布拉格共振条件,包括扰动和傅立叶变换方法。研究计算了各种物理参数的布拉格透射和反射,并验证了能量关系,确保了结果的准确性。研究结果表明,当波以自由表面模式传播时,反射系数随流速的增加而降低。当波浪通过挠曲模式传播时,反射系数随着挠曲刚度的增加而减小,而透射系数则随着流速的增加而增大。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Bragg resonance due to an undulated elastic bottom in the presence of current

This paper explores Bragg scattering in a homogeneous fluid, focusing on the interaction between oblique waves and an undulated elastic bottom in the presence of a uniform current. It uses linear wave theory to analyze the effects of a uniform current and flexible floor on wave interaction, where the fluid propagates in two modes: free-surface and flexural mode. The study uses analytical derivation and numerical exploration of Bragg resonance conditions for various physical parameters, including perturbation and Fourier transform methods. The study computes Bragg transmission and reflection for various physical parameters and verifies the energy relations, assuring the accuracy of the results. The findings reveal that when waves propagate due to the free-surface mode, reflection coefficients decrease with increasing current speed. When waves propagate through the flexural mode, the reflection coefficients decrease as the flexural rigidity increases, while the transmission coefficients increase as the current speed increases.

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