Frequency-Dependent Nature of Pn in Western China: Gaussian Beam Modeling of Data from the Hi-CLIMB Experiment
Abstract
In realistic models of the crust and the upper mantle where vertical gradients in wave speeds and major interfaces are present, propagation of Pn, an important seismic phase at regional distances, involves complex effects of interference. Such effects can result in wave-trains whose frequency-contents and amplitudes vary with distance in counter-intuitive ways. In this new project, we are investigating the propagation of Pn beneath western China using data from Hi-CLIMB (An Integrated Study of the Himalayan-Tibetan Continental Lithosphere during Mountain Building). This experiment is one of the largest broadband seismic experiments to date, with more than 210 deployments at close station-spacing of 3-8 km over a distance of 800 km. The linear array is complemented by a regional array of comparable aperture, producing an unprecedented dataset for Eurasia. For the current project, which just began in May of 2008, we are organizing a dataset for regional seismic events recorded by the Hi-CLIMB arrays and will show examples of long seismic profiles over apertures of 500 km from several different azimuths. We are also investigating methods of modeling and inversion based on Gaussian beams (GB), which offer several distinct advantages. First, GB modeling can be applied both for interference waves, which have caustics, and for pure head waves. Second, GB modeling can handle laterally varying media, an important aspect that cannot be investigated by standard methods such as reflectivity. Third, GB is computationally efficient, suitable for analyzing large datasets. We will illustrate our approaches with data from an earlier experiment using explosions. Based on numerous events recorded by the Hi-CLIMB array, we will investigate frequency-dependent propagation of Pn over a large region in western China using GB and also finite-difference schemes.
Document Details
- Document Type
- Technical Report
- Publication Date
- Sep 30, 2008
- Accession Number
- ADA487577
Entities
People
- Robert L. Nowack
- Tai-lin Tseng
- Wang-ping Chen
Organizations
- Purdue University