|
ARTICLES
Plumes:
Response of time migration to lateral velocity variation
By D. Bevc, J. L. Black,
and G. Palacharla
We analyze how time migration
mispositions events in the presence of lateral velocity variation
by examining the impulse response of depth modeling followed
by time migration. By examining this impulse response, we
lay the groundwork for the development of a remedial migration
operator which links time and depth migration. A simple theory
by Black and Brzostowski (1994) predicted that the response
of zero-offset time migration to a point diffractor in a v(x,z)
medium would be a distinctive, cusp-shaped curve called a
plume. We have constructed these plumes by migrating synthetic
data using several time-migration methods. We have also computed
the shape of the plumes by two geometrical construction methods.
These two geometrical methods compare well and explain the
observed migration results.
The plume response is
strongly influenced by migration velocity. We have studied
this dependency by
migrating synthetic data with different velocities.
The observed velocity dependence is confirmed by geometrical
construction. A simple
first-order theory qualitatively explains the behavior
of zero-offset time migration, but a more complete understanding
of migration velocity dependence in a v(x,z) medium requires
a higher order finite-offset theory.
Geophysics, Vol. 60, no.
4 (July-August 1995), P. 1118-1127
|
