Physics – Geophysics
Scientific paper
2011-09-22
Physics
Geophysics
6 pages, 5 figures, submitted to the Australian Society of Exploration Geophysicists conference (ASEG2012)
Scientific paper
Interferometric principles are widely used in precision physics experiments and/or in advanced laboratory-based phase measurement systems. Phase resolution of such systems is a few orders of magnitude higher compared to that of standard mixer-based quadrature demodulators or lock-in technique. The first attempt of applying interferometric signal processing to transmitter-target-receiver based electromagnetic (EM) surveying in geophysical prospecting is described. It is shown that it is possible to build an EM single carrier surveying system that is, firstly, immune to amplitude variations of both the primary and the secondary EM fields, and, secondly, can directly measure phase variations between the primary and secondary EM fields. Its inherent phase noise floor, if limited by the interferometer itself, can be as low as tens of nanoradians/\surdHz or below -140 dBc/\surdHz level. A practical example of an EM gradiometric surveying system based on an interferometric principle and operating in the Extremely Low Frequency (ELF) range, is presented. The system has been tested in regional outback Australia, in the presence of a highly conducting overburden, in the search of a nickel sulphide deposit. Key words: EM gradiometer, interferometric methods, geophysical prospecting
Blair David Gerald
Li Ju
Torres Francis A.
Vaalsta Timo P.
Veryaskin Alexey V.
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