INDUCTION ANOMALY DUE TO AN ELONGATED COVERED ORE‐ZONE EXCITED BY A LONG CURRENT CARRYING CABLE *

A bstract A detailed analysis of the electromagnetic anomaly due to an elongated mineralized zone of low resistivity in presence of a fixed‐transmitter (a long cable carrying an, alternating current I e Iωt ) is presented where (i) the host rock is not highly resistive and might contain some disseminated mineralization, (ii) the ore‐body has an inhomogeneous conductivity, (iii) there is a contrast in magnetic properties of the ore‐body and the host rocks, and (iv) source is close to the conducting system i.e., anomalous zone is lying shallow. The numerical computation of the generalized analytical expressions have been made. The selective screening behaviour of the cover is delineated and suitable frequency ranges for maximum detectability of a covered conductor have been obtained. A paradoxical decrease of the in‐phase component of the response function with the increase of the core conductivity has been found for large conductivities of the cover. For moderate values of response parameter the inhomogeneity in the conductivity is found to significantly affect the induced field. The present analysis of the various features of the secondary field will aid to the existing interpretation sensitivity of the induction prospecting data for porphyry conducting ore deposits with zonal wall‐rock alteration and sulphide distributions.