Time-domain electromagnetic migration in the solution of inverse problems |
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Authors: | Michael S. Zhdanov Oleg Portniaguine |
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Affiliation: | University of Utah, Department of Geology and Geophysics, Salt Lake City, UT 84112, USA. E-mail: mzhdanov@mines.utah.edu |
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Abstract: | Time-domain electromagnetic (TDEM) migration is based on downward extrapolation of the observed field in reverse time. In fact, the migrated EM field is the solution of the boundary-value problem for the adjoint Maxwell's equations. The important question is how this imaging technique can be related to the solution of the geoelectrical inverse problem. In this paper we introduce a new formulation of the inverse problem, based on the minimization of the residual-field energy flow through the surface or profile of observations. We demonstrate that TDEM migration can be interpreted as the first step in the solution of this specially formulated TDEM inverse problem. However, in many practical situations this first step produces a very efficient approximation to the geoelectrical model, which makes electromagnetic migration so attractive for practical applications. We demonstrate the effectiveness of this approach in inverting synthetic and practical TDEM data. |
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Keywords: | electromagnetic inversion inverse problem migration |
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