Laboratory on Reverse Time Migration
John Dunbar
, Baylor University
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HideSummary
Students use an finite element wave propagation program running on a PC to model the forward and reverse wave propagation steps in reverse time migration. Conceptual understanding is aided by watching the simultaneous evolution of the subsurface wave field and the formation of the associated seismic section.
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Context
Audience
Senior undergraduate and first year graduate. Designed for a geophysics course
Skills and concepts that students must have mastered
1. Ray theory models of travel time curves for reflected waves in layered media and from point scatterers.
2. An introduction to the wave equation, which includes its derivation from first principles, analytical solutions for homogeneous media, and boundary conditions
How the activity is situated in the course
This lab is given late in the semester, after much work on ray theory, the wave equation, and digital signal processing.
Goals
Content/concepts goals for this activity
The goal is for the students to develop an understanding of how the migration process works by watching the image form.
Higher order thinking skills goals for this activity
The students need to relate the characteristics of the wave equation to how wave propagate in simple Earth models. They need to reconcile how results based on ray theory differ in some aspects and are similar in other aspects, to results from wave theory.
Other skills goals for this activity
Description of the activity/assignment
Addresses student fear of quantitative aspect and/or inadequate quantitative skills
Determining whether students have met the goals
Teaching materials and tips
- Activity Description/Assignment (Microsoft Word 35kB Jul31 07)
- Student Handout with background reading and figures (Microsoft Word 622kB Jul31 07)