The object of this exercise is to examine the sensitivity of surface wave dispersion and the receiver functions on a gradational Moho rather than a sharp Moho. To accomplish this, different velocity models are created as follow:
gunzip -c RFTN2.tgz | tar xvf - cd RFTN2 ./DOITThe script will create the figures shown below. The script requires the FORTRAN compiler gfortran, the CPS programs sprep96, sdisp96, sregn96, slegn96, sdpegn96, hrftn96, gsac and plotnps and the ImageMagick package program convert to transform the EPS files to a PNG image.
The first figure shows the velocity models considered.
in the figure the colors indicate the progression from a sharp Moho to a gradational Moho.
The next set of figures use the same color scheme to show the Love and Rayleigh, phase (C) and group (U) velocity dispersion for the different models. There is little sensitivity to the different models, except at the group velocity minima.
The final set of figures show the receiver functions for a ray parameter of 0.07 sec/km for two Gaussian filter parameters, ALP=1.0 and ALP=2.5. The receiver functions are very sensitive to the nature of the Moho. The first "bump" does not change since its amplitude is only a function of the properties at the surface. However, the second "bump", corresponding to a PS is affected. The increasing width indicates that the top and bottom of the transition affect the signal. The last two arrivals, PPPS and PPSS+PSPS, are strongly affected since these involve reflections from the Moho, and gradients do not reflect well for near-vertical incidence.
These figures indicate that one can quickly look at a receiver function and judge whether the Moho is sharp.
Receiver functions for ALP=1.0 |
Receiver functions for ALP=2.5 |