A first step towards the P wave only modeling plan

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Presentation transcript:

A first step towards the P wave only modeling plan Xinglu Lin San Antonio, Texas May 2nd ,2013 1/17/2019 1 1

Outline Basic methods of implementation Initial Numerical Tests Conclusions and Future works 1/17/2019

Outline Basic methods of implementation Initial Numerical Tests Conclusions and Future works 1/17/2019

Basic methods of implementation Finite Difference modeling: Based on velocity-stress equations; Expect an accurate phase and acceptable amplitude on primary wave. Born series modeling: Based on Born series Do not expect an accurate phase and amplitude estimation on Born term. However, a higher-order term modeling has the potential to provide a good wave-theory based result. We inject an analytical field as source. Propagate the anallytical field in a fd numerical scheme, 1/17/2019

Finite-difference modeling 1/17/2019

Finite Difference Modeling Velocity-stress equations in 2D isotropic medium: The velocity components for the time-differentiated displacements. The equations can be easily solved by finite-difference because the equations are all first-order in their derivatives. (Virieux, 1986; Levander, 1988) 1/17/2019

Finite Difference Modeling Instead of the source, analytical P-only displacement fields are used as sources. Regular grid; fourth-order accuracy finite-difference; f0=30Hz. (F. Liu, 2012) (Matson, 1997)

Born modeling based on Born series 1/17/2019

Born Term Modeling In this initial step, we only take a look into the first linear Born term in Born series. This kind of approximation assumes that the perturbation of the medium is small and the modeling aperture is small, where and . 1/17/2019

Result of Asymptotic Born Approximation Step 1: The r here is the travel length of the wave from source to reflector and from the reflector back to receivers. So that the formalism reduced to ray theory with a asymptotic result. Assumptions: 1) constant reference medium; 2) horizontal reflectors; 3) 1D properties vary. Step 2: FFT over omega , so that modeling data back to time domain. (Nita, Matson & Weglein,2004) 1/17/2019

Outline Basic methods of implementation Initial Numerical Tests Conclusions and Future works 1/17/2019

Elastic model 1000m 1/17/2019

P-only Born Approximation Modeling Set these two results in same color scale Finite-difference P pressure data GVppG High-frequency approximation result 1/17/2019

Wiggle Comparison (offset=190m) Red Line : Finite-difference result Green Line : Asymptotic Born modeling result 1/17/2019

Wiggle Comparison (offset=690m) Red Line : Finite-difference result Green Line : Asymptotic Born modeling result 1/17/2019

Wiggle Comparison (offset=1190m) The far offset issue is generated by the limitation of Born approximation Red Line : Finite-difference result Green Line : Asymptotic Born modeling result 1/17/2019

Outline Basic methods of implementation Initial Numerical Tests Conclusions and Future works 1/17/2019

Conclusions This is the first and elementary test comparing a P-only modeling with finite-difference calculation. Plans include P-only modeling for layered elastic media. Asymptotic Born term modeling can provide a P-wave- only event with accurate phase and approximate amplitude in this initial numerical test. In multi-layer model, we cannot expect accurate phase the second and third primary for Born approximation especiallly using constant velocity model as reference. 1/17/2019

Acknowledge 1/17/2019

Reference Clayton, Robert W. and David Brown. The Choice of Variables for elastic wave extrapolation. Technical Report 06, SEP, 1979. Matson, K. H. An inverse-scattering series method for attenuating elastic multiples from multicomponent land and ocean bottom seismic data. PhD thesis, University of British Columbia, 1997. Weglein, Arthur B., Shot note: A formalism for (1) modeling the amplitude and phase of pressure waves from a heterogeneous elastic medium and (2) selecting and predicting P-wave events that has only experienced p-wave episodes in their history." Mission-Oriented Seismic Research Program Annual Report (2012): 364-370. Weglein, Arthur B. and R.H. Stolt. Approaches on linear and non-linear migration-inversion. Personal Communication." (1992). Zhang, H. Direct non-linear acoustic and elastic inversion: Towards fundamentally new comprehensive and realistic target identification. PhD thesis, University of Houston, 2006. Forward scattering series and seismic events: far-field approximation, critical and postcritical reflections , 2004