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引用次数: 0
摘要
本研究利用三维数值模型模拟了外部激发的波场与岩浆室-导管系统之间相互作用所产生的火山大厦地震共振。岩浆室和导管能有效捕捉到由位于火山口内的高频(约 10 赫兹)地震激发的 P 波和 S 波的入射波场。由于腔室和导管边界的多次内部反射,发生了长时间的混响,并沿着导管进行引导。对合成地震图进行的时间和频谱分析表明,具有较大腔室和较宽导管的模型在不同频率下会产生较大的共振振幅。我们的模型表明,较大的岩浆室可以产生频率范围较宽的强化散射波场,在距离中央导管几百米的地方都可以观测到。一般来说,这些由外部引发的 "岩浆共振 "可能会在建筑物上的地震仪上显示为类似震颤的信号,并伴随着其附近更常规的地震事件。
Numerical modeling predicts seismic resonances in the magma chamber-conduit system due to wavefield capturing
This study utilizes 3D numerical models to simulate seismic resonances in a volcanic edifice, arising from the interaction between an externally excited wavefield and a magma chamber-conduit system. The magma chamber and conduit efficiently capture the incident wavefield of both P- and S-waves, excited by a high-frequency (~10 Hz) earthquake located within the edifice. Due to multiple internal reflections off the boundaries of the chamber and conduit, prolonged reverberations occur, which are guided along the conduit. Temporal and spectral analyses of synthetic seismograms illustrate that models with larger chambers and wider conduits consistently yield larger resonance amplitudes at distinct frequencies. Our models indicate that a larger magma chamber can produce an intensified scattered wavefield with a broad frequency range, observable up to several hundred meters away from the central conduit. Generally, these externally initiated ‘calabash resonances’ may appear as tremor-like signals at seismometers on the edifice, accompanying more conventional seismic events in its proximity.
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