层状径向对称地球中pkp波“前体”的出现

A. Fatyanov, V. Burmin
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引用次数: 0

摘要

一般认为,在PKP波之前的实际资料上观测到的PKP波前兆可以用下地幔小尺度不均匀性的散射来解释。本文得到了行星大小的层状(离散)球纵波场的稳定解析解(无干涉)。给出了载频为1赫兹的地球AK135球形模型的总波场、射线和纵波走时曲线的计算。解析解表明,在PKP波前方小于145度角处,出现低频波,频率约为1.3赫兹。事实上,这些高频振荡具有波散射在某一物体上的形式特征。射线模式和行进时间图表明,这些高频振荡完全是由于地球的球形几何形状。这可以用在离散的外核底部的折射和反射纵波的干涉来解释。由于衍射波的干涉,这个场向更小的角度传播得更远。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Occurrence of “precursors” of PKP-waves in the layered radial-symmetric Earth
It is generally accepted that PKP‑waves precursors, which are observed on a real data ahead of PKP‑waves, are explained by scattering on small-scale inhomogeneities in the lower mantle. In this paper, a stable analytical solution (without interference) was obtained for the wave field of longitudinal waves in a layered (discrete) ball of planetary size. The calculations of the total wave field, rays and travel-time curves of longitudinal waves for the spherical model of the Earth AK135 with a carrier frequency of 1 hertz are presented. The analytical solution showed that at angles smaller than 145 degrees ahead of the PKP‑waves, low-amplitude waves appear, with a higher frequency of about 1,3 hertz. Indeed, these high-frequency oscillations have the form characteristic for waves scattered at a certain object. The ray pattern and the travel-time graph show that these high-frequency oscillations are due to exclusively to the spherical geometry of the Earth. This could be explained by the interference of refracted and reflected longitudinal waves in the bottom of a discrete outer core. This field propagates even further towards smaller angles due to the interference of diffraction waves.
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