Surface-Wave Anelasticity in Porous Media: Effects of Wave-Induced Mesoscopic Flow

IF 4.9 2区 地球科学 Q1 GEOCHEMISTRY & GEOPHYSICS
Enjiang Wang, Jiaxuan Yan, Bingshou He, Zhihui Zou, José M. Carcione, Jing Ba
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引用次数: 1

Abstract

We study the anelastic properties (attenuation and velocity dispersion) of surface waves at an interface between a finite water layer and a porous medium described by Biot theory including the frequency-dependent effects due to mesoscopic flow. A closed-form dispersion equation is derived, based on potential functions and open and sealed boundary conditions (BC) at the interface. The analysis indicates the existence of high-order surface modes for both BCs and a slow true surface mode only for sealed BC. The formulation reduces to two particular cases in the absence of water and with infinite-thickness water layer, with the presence of pseudo-versions of Rayleigh and Stoneley waves. The mesoscopic flow affects the propagation of all the pseudo-surface waves, causing significant velocity dispersion and attenuation, whereas the effect of the BC is mainly evident at high frequencies, due to the presence of the slow Biot wave. The mesoscopic-flow peak moves to low frequencies as the thickness of the water layer increases. In all cases, the true surface wave resembles the slow P2 wave, and is hardly affected by the flow.

Abstract Image

多孔介质中的表面波非弹性:波诱导细观流动的影响
本文研究了由Biot理论描述的有限水层与多孔介质界面处表面波的非弹性特性(衰减和速度色散),包括介观流动引起的频率依赖效应。基于势函数和界面处的开放和封闭边界条件,导出了闭式色散方程。分析表明,两种BC都存在高阶表面模态,而只有密封BC才存在慢真表面模态。该公式可简化为无水和具有无限厚度水层的两种特殊情况,其中存在伪瑞利波和伪斯通利波。介观流影响了所有伪表面波的传播,造成了显著的速度频散和衰减,而由于慢波的存在,BC的影响主要在高频处明显。随着水层厚度的增加,介观流峰向低频移动。在所有情况下,真正的表面波都类似于缓慢的P2波,几乎不受流量的影响。
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来源期刊
Surveys in Geophysics
Surveys in Geophysics 地学-地球化学与地球物理
CiteScore
10.00
自引率
10.90%
发文量
64
审稿时长
4.5 months
期刊介绍: Surveys in Geophysics publishes refereed review articles on the physical, chemical and biological processes occurring within the Earth, on its surface, in its atmosphere and in the near-Earth space environment, including relations with other bodies in the solar system. Observations, their interpretation, theory and modelling are covered in papers dealing with any of the Earth and space sciences.
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