Download - Part I: Seismic Refraction
Seismic Refraction
Anne ObermannPart I: Seismic RefractionPSTE 4223 Methodes sismiques
2 x 3hOverviewIntroduction historical outline
Chapter 1: Fundamental conceptsChapter 2: Data acquisition and materialChapter 3: Data processing and interpretation
Wave Propagation according to Huygens PrincipleSummaryv1 determined from the slope of the direct arrival (straight line passing through the origin)v2 determined from the slope of the head wave (straight line first arrival beyond the critical distance)Layer thickness h1 determined from the intercept time of the head wave (already knowing v1 and v2)
h1Complete analysis process
Special cases
Dipping InterfacesA dipping interface produces a pattern that looks just like a horizontal interface!Velocities are called apparent velocitiesWhat do we do?Shoot lines forward and reversed
In this case, velocity of lower layer is underestimated underestimated
What if the critically refracted interface is not horizontal?Beware: the calculated thicknesses will be perpendicular to the interface, not vertical
Dipping InterfacesVf: apparent velocity for all trajectories downwardsVr: apparent velocity for all trajectories upwardsThese apparent velocities are given by:
So :
Real velocity of the second layer:
Lamb+alpha= arcsin(v1/Vf) etc i durch andere Expression ersetzenReal velocity of the second layer is the mean corrected by the angle8
Dipping Interfaces
You can also write:If the dip is small (