| zoeppritz-package {zoeppritz} | R Documentation |
Zoeppritz Equations
Description
Calculate and plot scattering matrix coefficients for plane waves at interface.
Author(s)
Jonathan M. Lees<jonathan.lees@unc.edu> Maintainer: Jonathan M. Lees<jonathan.lees@unc.edu>
References
Young,~G.B., Braile, L. W. 1976. A computer program for the application of Zoeppritz's amplitude equations and Knott's energy equations, Bulletin of the Seismological Society of America, vol.66, no.6,1881-1885.
K. Aki and P.G. Richards.Quantitative seismology. University Science Books, Sausalito, Calif., 2nd edition, 2002.
Examples
##### demo(ZOEP)
############# Incident wave in Low velocity layer
alpha1 = 4.98
beta1 = 2.9
rho1 = 2.667
alpha2 = 8.0
beta2 = 4.6
rho2 = 3.38
App = pzoeppritz( "Amplitude" , alpha1, alpha2, beta1, beta2, rho1 ,rho2, "P", "ALL");
App = pzoeppritz( "Amplitude" , alpha1, alpha2, beta1, beta2, rho1 ,rho2, "S", "ALL");
App = pzoeppritz( "Energy" , alpha1, alpha2, beta1, beta2, rho1 ,rho2, "P", "ALL");
App = pzoeppritz( "Potential" , alpha1, alpha2, beta1, beta2, rho1 ,rho2, "P", "ALL");
############# Incident wave in high velocity layer
alpha1 = 8.0
beta1 = 4.6
rho1 = 3.38
alpha2 = 4.98
beta2 = 2.9
rho2 = 2.667
App = pzoeppritz( "Amplitude" , alpha1, alpha2, beta1, beta2, rho1 ,rho2, "P", "ALL");
App = pzoeppritz( "Amplitude" , alpha1, alpha2, beta1, beta2, rho1 ,rho2, "S", "ALL");
[Package zoeppritz version 1.0-9 Index]