GBBEAM - Gaussian beam synthetic
seismograms for a sloth model
gbbeam <rayends >syntraces xg= zg= [optional parameters]
Required Parameters:
xg= x coordinates of receiver surface
zg= z coordinates of receiver surface
Optional Parameters:
ng=101 number of receivers (uniform distributed along
surface)
krecord=1 integer index of receiver surface (see
notes below)
ang=0.0 array of angles corresponding to amplitudes in amp
amp=1.0 array of
amplitudes corresponding to angles in ang
bw=0 beamwidth at peak frequency
nt=251 number of
time samples
dt=0.004 time sampling interval
ft=0.0 first time sample
reftrans=0 =1 complex refl/transm. coefficients considered
prim =1, only
single-reflected rays are considered ",
=0, only direct hits are considered
atten=0 =1 add
noncausal attenuation
=2 add causal attenuation
lscale= if defined restricts range of extrapolation
aperture= maximum
angle of receiver aperture
fpeak=0.1/dt peak frequency of ricker wavelet
infofile ASCII-file to store useful
information
NOTES:
Only rays that terminate with index krecord
will contribute to the
synthetic seismograms at the receiver (xg,zg)
locations. The
receiver
locations are determined by cubic spline interpolation
of the specified
(xg,zg) coordinates.
AUTHOR:
Dave Hale, Colorado School of Mines, 02/09/91
MODIFIED:
Andreas Rueger, Colorado School of Mines, 08/18/93
Modifications include: 2.5-D amplitudes,
computation of reflection/
transmission
losses, attenuation,
timewindow,
lscale, aperture, beam width, etc.