Yung‐Yen Ko scite author profile

Yung‐Yen Ko

3Publications

142Citation Statements Received

80Citation Statements Given

How they've been cited

162

135

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Affiliations

National Cheng Kung University, National Taiwan University, National Center for Research on Earthquake Engineering

Publications

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Robust determination of earthquake source parameters and mantle attenuation

Kuo

Hung

2012

J. Geophys. Res.

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An improved inversion technique is needed to effectively separate the frequency dependence of the source from the intrinsic attenuation of the medium. We developed a cluster‐event method (CEM) in which clusters of nearby events, instead of individual events, pair with stations to form the basis for measurements ofQ value and corner frequency (fc). We assume that the raypaths from one cluster to a station share an identical Q while each event in the same cluster is allowed for only one fcin the inversion process. This approach largely reduces the degrees of freedom to achieve a robust inversion. We use an optimization algorithm of simulated annealing to solve the nonlinear inverse problem. The CEM was applied to events at 70–150 km depths in the Japan subduction zone recorded by F‐net. We show that the method proposed here leads to better constraints on both source parameters and attenuation. The resultantQ's in the mantle wedge increase from lower than 300 beneath the arc and back‐arc to greater than 600 in the fore‐arc region. Thefc's satisfy a self‐similar scaling relationship with seismic moment ofM0 ∝ fc−3 with a best fit stress drop of 21.9 ± 6.9 MPa in Madariaga's form. This contrasts to the stress drop of 1.4 ± 1.1 MPa for a global data set composed of prior measurements for crustal events. The results of this study agree with results from previous studies, except with an upward deviation due to higher corner frequencies and stress drops.

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Field measurements of aerodynamic pressures in tunnels induced by high speed trains

Chen

Hoe³

et al. 2012

Journal of Wind Engineering and Industrial Aerodynamics

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The southwestern edge of the Ryukyu subduction zone: A high Q mantle wedge

Kuo

Wang

et al. 2012

Earth and Planetary Science Letters

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Yung‐Yen Ko

Robust determination of earthquake source parameters and mantle attenuation

Field measurements of aerodynamic pressures in tunnels induced by high speed trains

The southwestern edge of the Ryukyu subduction zone: A high Q mantle wedge

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