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Geology 5660/6660 Applied Geophysics 8 Feb 2016 © A.R. Lowry 2016 For Wed 10 Feb: Burger 200-253 (§4.4-4.7) Last Time: Seismic Reflection Travel-Time Cont’d.

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Presentation on theme: "Geology 5660/6660 Applied Geophysics 8 Feb 2016 © A.R. Lowry 2016 For Wed 10 Feb: Burger 200-253 (§4.4-4.7) Last Time: Seismic Reflection Travel-Time Cont’d."— Presentation transcript:

1 Geology 5660/6660 Applied Geophysics 8 Feb 2016 © A.R. Lowry 2016 For Wed 10 Feb: Burger 200-253 (§4.4-4.7) Last Time: Seismic Reflection Travel-Time Cont’d Discovered travel-time eqns for >1 layer get messy (!) x 2 – t 2 Method : On a plot of t 2 vs x 2, for a single layer: For dipping layer: Mean slope is ; limb separation 

2 Note the single-layer approximation is the approach taken to inverting data in Reflect!

3 Also works for multiple layers– However instead of explicitly solving e.g.: We use an approximation called the Dix Equation

4 h1h1 V1V1 x/2 V2V2 h2h2 Recall multiple layer case: The need to solve for path length in each layer using Snell’s law results in a complicated function of all velocities & thicknesses… Green’s method: Uses x 2 – t 2 and ignores bending of the ray to get approximate thicknesses and velocities of second, third etc layers using the single-layer equation…

5 h1h1 V1V1 x/2 V2V2 h2h2 Recall multiple layer case: Green’s method:

6 Dix’ Equation: Improves slightly on Green’s method because it is a closer approximation of the true physics. We define a root mean square (RMS) velocity for n layers as: Here  t i is the one-way vertical travel-time through layer i, i.e., Then on an x 2 – t 2 plot, for layer n ;;

7 This means we can solve for both the velocity and thickness in any layer for which we have a reflection above & a reflection below, using parameters of a line-fit on an x 2 – t 2 plot! slope intercept

8 Caveat: Recall that Dix’ equation is an approximation. After refraction in overlying layers, reflections from the 2 nd + interface are no longer truly hyperbolic… e.g. (2-layer case) contains a (t 2 – 2at + a 2 ) term. Generally, approximation is good for small offsets, poorer further out. (We ignored this.)

9 Normal Move-Out and the dipping layer problem : Recall our definition of NMO for a single horizontal layer: We can write: The binomial theorem tells us that: So letting and, and assuming z << 1 (i.e. ) then and

10 Note: If x is not << 2h, we could expand the series further… (but that gets messy) This from the text, using a 1500 m/s velocity in a 30 m thick layer… Why express the reflection travel-time this way if it is inaccurate? Because now we can write T NMO in terms of the observed t 0 !

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