论文信息 - Imaging quasi-layered conductive structures by simple processing of transient electromagnetic data

Imaging quasi-layered conductive structures by simple processing of transient electromagnetic data

An “imaged” conductivity section of a layered earth can be obtained by simple transformation of step‐response electromagnetic data measured in the quasi‐static zone. This method of data transformation is presented as an alternative to conventional apparent conductivity transformations. At each delay time, the variation of the step response as a function of geometry (transmitter and receiver location) is transformed to an equivalent reference depth h, which can be related to the depth of electromagnetic field diffusion. The behavior of h as a function of delay time is nearly independent of the source‐receiver geometry. The slowness dt/dh divided by the magnetic permeability is almost exactly proportional to the cumulative conductance measured from the surface down to a depth h. Thus we can estimate an apparent conductivity, which we call the “imaged conductivity,” at depth to be d2t/μ0dh2. The cost of this transformation is a fraction of the cost of conventional data inversion, and it does not require an a...

James Macnae | J. Macnae | Y. Lamontagne | Yves Lamontagne

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