Surface Wave Dispersion Measurements and Tomography from Ambient Seismic Noise Correlation in China

Abstract

We perform ambient noise tomography of China using the data from the China National Seismic Network and global and PASSCAL stations. The results so far are summarized below. (1) Dispersion measurements and tomography. For most of the station pairs, we retrieve good Rayleigh waveforms from ambient noise correlations using 18 months of continuous data at all distance ranges across the entire region (over 5000 km) and for periods from 70 s down to about 8 s. We obtain Rayleigh wave group velocity dispersion measurements for periods 8 to 70 s and invert for Rayleigh dispersion maps for periods from 8 to 60 s. The dispersion maps correlate nicely with surface geology. (2) Error estimates using bootstrap analysis. A major feature of the ambient noise method is that the whole process is completely repeatable with different time segments, which make it possible to evaluate the uncertainties. We adopt a bootstrap method to quantify the errors in the Rayleigh wave group velocity dispersion measurements and the tomographic maps. Most of the pairs show similar dispersion curves between different runs and small standard deviations, indicating good data quality and convergence of the Green's function. Group velocity for a long period generally has a larger error, which is consistent with the notion that the long period needs longer time to converge. The best retrieved periods are from 10 to 30 s with the optimal period of around 15 to 20 s. Pairs with large errors do not depend on the orientations of the paths or the locations of the stations. Rather, they are associated with a few stations with large average standard errors. The likely causes are missing data and poor instrumentation (or site conditions). Where ray coverage is good, there is only a subtle difference in tomography maps between different runs, suggesting that our solution is very stable. (3) 3D structure. We invert the Rayleigh group and phase dispersion maps for 3D shear-wave velocity structure.

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Document Details

Document Type
Technical Report
Publication Date
Sep 30, 2008
Accession Number
ADA487633

Entities

People

  • Michael H. Ritzwoller
  • Sihua Zheng
  • Xiaodong Song
  • Xinlei Sun
  • Yingjie Yang
  • Zhen Xu

Organizations

  • University of Illinois Urbana–Champaign

Tags

DTIC Thesaurus Topics

  • Air Force Research Laboratories
  • Ambient Noise
  • Channel Flow
  • Contrast
  • Cross Correlation
  • Frequency Bands
  • Group Velocity
  • Imaging Techniques
  • Measurement
  • Nuclear Explosions
  • Rayleigh Waves
  • Secondary Waves
  • Shallow Depth
  • Standards
  • Surface Waves
  • Tomography
  • Waves

Fields of Study

  • Environmental science

Readers

  • Applied Combinatorial Optimization and Logic Circuit Design.
  • Seismology