BSSA, Vol. xx:x

Electronic Supplement to

Kinematic inversion of the 2004 M_w6.0 Parkfield earthquake including an approximation to site effects

Bull. Seism. Soc. Am.., 96, 4B, pp. S143-S158, doi:10.1785/0120050826

by P. Liu, S. Custódio, and R. J. Archuleta

Kinematic rupture models

The tables we present here contain the kinematic rupture models inverted from strong-motion data. Tables 1-20 contain the rupture models obtained by modeling a 15-km deep fault, and Tables 21-40 contain those obtained by modeling a 10-km deep fault. Ten models are presented for each fault modeled (10-km and 15-km deep); each of the ten models was obtained using different seeds for random number generation. Each rupture model is defined by five source parameters: slip amplitude, rake angle, rupture velocity, rise time T₁ and rise time T₂. Tables 1-10 and 21-30 contain the source parameters at the nodes of a 2km x 2km grid (the spacing for inversion of source parameters). Tables 11-20 and 31-40 contain the source parameters at the nodes of a 167m x 167m grid (the spacing for interpolation of source parameters and convolution with Green's functions).

The seven columns in the tables correspond to: 1) x-coordinate along strike from NW to SE (km); 2) y-coordinate down-dip from the surface (km); 3) slip amplitude (m); 4) rake angle (degrees); 5) rupture velocity (km/s); 6) accelerating rise time T₁; and 7) decelerating rise time T₂. In the xy coordinate system of the fault plane, the hypocenter is located at x=0 km; y=8.26 km.

Tables

Table 1. Model 1 for a 15-km deep fault. Source parameters are given at the nodes of a 2km x 2km grid (the spacing for inversion of source parameters).

Table 2. Model 2 for a 15-km deep fault. Source parameters are given at the nodes of a 2km x 2km grid (the spacing for inversion of source parameters).

Table 3. Model 3 for a 15-km deep fault. Source parameters are given at the nodes of a 2km x 2km grid (the spacing for inversion of source parameters).

T able 4. Model 4 for a 15-km deep fault. Source parameters are given at the nodes of a 2km x 2km grid (the spacing for inversion of source parameters).

Table 5. Model 5 for a 15-km deep fault. Source parameters are given at the nodes of a 2km x 2km grid (the spacing for inversion of source parameters).

Table 6. Model 6 for a 15-km deep fault. Source parameters are given at the nodes of a 2km x 2km grid (the spacing for inversion of source parameters).

Table 7. Model 7 for a 15-km deep fault. Source parameters are given at the nodes of a 2km x 2km grid (the spacing for inversion of source parameters).

Table 8. Model 8 for a 15-km deep fault. Source parameters are given at the nodes of a 2km x 2km grid (the spacing for inversion of source parameters).

Table 9. Model 9 for a 15-km deep fault. Source parameters are given at the nodes of a 2km x 2km grid (the spacing for inversion of source parameters).

Table 10. Model 10 for a 15-km deep fault. Source parameters are given at the nodes of a 2km x 2km grid (the spacing for inversion of source parameters).

Table 11. Model 1 for a 15-km deep fault. Source parameters are given at the nodes of a 167m x 167m grid (the spacing for interpolation of source parameters and convolution with Green's functions).

Table 12. Model 2 for a 15-km deep fault. Source parameters are given at the nodes of a 167m x 167m grid (the spacing for interpolation of source parameters and convolution with Green's functions).

Table 13. Model 3 for a 15-km deep fault. Source parameters are given at the nodes of a 167m x 167m grid (the spacing for interpolation of source parameters and convolution with Green's functions).

T able 14. Model 4 for a 15-km deep fault. Source parameters are given at the nodes of a 167m x 167m grid (the spacing for interpolation of source parameters and convolution with Green's functions).

Table 15. Model 5 for a 15-km deep fault. Source parameters are given at the nodes of a 167m x 167m grid (the spacing for interpolation of source parameters and convolution with Green's functions).

Table 16. Model 6 for a 15-km deep fault. Source parameters are given at the nodes of a 167m x 167m grid (the spacing for interpolation of source parameters and convolution with Green's functions).

Table 17. Model 7 for a 15-km deep fault. Source parameters are given at the nodes of a 167m x 167m grid (the spacing for interpolation of source parameters and convolution with Green's functions).

Table 18. Model 8 for a 15-km deep fault. Source parameters are given at the nodes of a 167m x 167m grid (the spacing for interpolation of source parameters and convolution with Green's functions).

Table 19. Model 9 for a 15-km deep fault. Source parameters are given at the nodes of a 167m x 167m grid (the spacing for interpolation of source parameters and convolution with Green's functions).

Table 20. Model 10 for a 15-km deep fault. Source parameters are given at the nodes of a 167m x 167m grid (the spacing for interpolation of source parameters and convolution with Green's functions).

Table 21. Model 1 for a 10-km deep fault. Source parameters are given at the nodes of a 2km x 2km grid (the spacing for inversion of source parameters).

Table 22. Model 2 for a 10-km deep fault. Source parameters are given at the nodes of a 2km x 2km grid (the spacing for inversion of source parameters).

Table 23. Model 3 for a 10-km deep fault. Source parameters are given at the nodes of a 2km x 2km grid (the spacing for inversion of source parameters).

T able 24. Model 4 for a 10-km deep fault. Source parameters are given at the nodes of a 2km x 2km grid (the spacing for inversion of source parameters).

Table 25. Model 5 for a 10-km deep fault. Source parameters are given at the nodes of a 2km x 2km grid (the spacing for inversion of source parameters).

Table 26. Model 6 for a 10-km deep fault. Source parameters are given at the nodes of a 2km x 2km grid (the spacing for inversion of source parameters).

Table 27. Model 7 for a 10-km deep fault. Source parameters are given at the nodes of a 2km x 2km grid (the spacing for inversion of source parameters).

Table 28. Model 8 for a 10-km deep fault. Source parameters are given at the nodes of a 2km x 2km grid (the spacing for inversion of source parameters).

Table 29. Model 9 for a 10-km deep fault. Source parameters are given at the nodes of a 2km x 2km grid (the spacing for inversion of source parameters).

Table 30. Model 10 for a 10-km deep fault. Source parameters are given at the nodes of a 2km x 2km grid (the spacing for inversion of source parameters).

Table 31. Model 1 for a 10-km deep fault. Source parameters are given at the nodes of a 167m x 167m grid (the spacing for interpolation of source parameters and convolution with Green's functions).

Table 32. Model 2 for a 10-km deep fault. Source parameters are given at the nodes of a 167m x 167m grid (the spacing for interpolation of source parameters and convolution with Green's functions).

Table 33. Model 3 for a 10-km deep fault. Source parameters are given at the nodes of a 167m x 167m grid (the spacing for interpolation of source parameters and convolution with Green's functions).

T able 34. Model 4 for a 10-km deep fault. Source parameters are given at the nodes of a 167m x 167m grid (the spacing for interpolation of source parameters and convolution with Green's functions).

Table 35. Model 5 for a 10-km deep fault. Source parameters are given at the nodes of a 167m x 167m grid (the spacing for interpolation of source parameters and convolution with Green's functions).

Table 36. Model 6 for a 10-km deep fault. Source parameters are given at the nodes of a 167m x 167m grid (the spacing for interpolation of source parameters and convolution with Green's functions).

Table 37. Model 7 for a 10-km deep fault. Source parameters are given at the nodes of a 167m x 167m grid (the spacing for interpolation of source parameters and convolution with Green's functions).

Table 38. Model 8 for a 10-km deep fault. Source parameters are given at the nodes of a 167m x 167m grid (the spacing for interpolation of source parameters and convolution with Green's functions).

Table 39. Model 9 for a 10-km deep fault. Source parameters are given at the nodes of a 167m x 167m grid (the spacing for interpolation of source parameters and convolution with Green's functions).