地震质量因子与峰值地加速度的关系，以2015年1月17日Eskisehir地震M=4.3为例

IF 0.5 Q4 GEOSCIENCES, MULTIDISCIPLINARY

Bulletin of the Mineral Research and Exploration Pub Date : 2020-12-16 DOI:10.19111/bulletinofmre.841785

M. Tün

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引用次数: 1

摘要

地震波在地下介质中的传播受到吸收，可以用地震质量因子Q（Q因子）来评估。吸收与频率有关。较低的频率被吸收得较少，而较高的频率被更多地吸收。因此，Q因子应在频域中确定。Q因子由输出-输入信号比的自然对数的斜率确定。表面波（瑞利波和洛夫波）尤其重要，因为它们是地震中破坏性更强的阶段。在这项研究中，我专注于表面波的Q因子计算，并证明Q因子的确定不受表面波色散特性的影响。数据来自埃斯基谢希尔技术大学地震网络EstuNet记录的地震表面波信号。所获得的Q因子值表示波浪在输入站和输出站之间穿过的岩石的平均值。最后，我使用2015年1月17日Eskisehir地震数据，将Q因子图与峰值地面加速度（PGA）图进行了比较。这些记录显示了地震从震中到地震波台站的到达时间，以及地面加速度峰值。在本研究中，使用标准谱比（SSR）方法计算了EstuNet加速度站的局部场地效应。我得出的结论是，计算的Q因子和测量的PGA值之间存在反比关系。因此，在地基地震风险评估中，应更详细地分析Q因子非常低的场地。

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The relationship between seismic quality factor and peak ground acceleration, a case study: M=4.3, 17.01.2015 Eskisehir Earthquake

Seismic wave propagation in subsurface media endures from absorption, which can be evaluated by the seismic quality factor Q (Q-factor). Absorption is frequency-dependent. Lower frequencies are absorbed less, while higher frequencies are absorbed more. Therefore, the Q Factor should be determined in the frequency domain. Q-factor is determined by the slope of the natural logarithm of the output-input signals ratio. Surface waves (Rayleigh and Love waves) are particularly important, as they are the more destructive phases of an earthquake. In this study, I focused on the Q-factor computation of the surface waves and demonstrated that the determination of the Q-factor is not affected from the dispersive properties of the surface waves. Data were obtained from surface wave signals of earthquake recorded at Eskisehir Technical University Seismic Network EstuNet. The obtained Q-factor values represent the average values of the rocks that the waves cross between the input and output stations. Finally, I compared the Q-factor map to the Peak Ground Acceleration (PGA) map using the M=4.3, 17.01.2015 Eskisehir earthquake data. These records, which show the arrival time of the earthquake from the epicenter to the stations of the seismic waves, and the peak ground acceleration values. In this study, local site effects of EstuNet accelerometric stations have been calculated by using the Standard Spectral Ratio (SSR) method. I concluded that an inverse relationship exists between the computed Q-factor and measured PGA values. Therefore, the sites where the Q factor is very low should be analyzed in more detail in ground-based earthquake risk assessments.

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来源期刊

Bulletin of the Mineral Research and Exploration GEOSCIENCES, MULTIDISCIPLINARY-

CiteScore

1.20

自引率

20.00%

发文量

审稿时长

10 weeks

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