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The feasibility of electromagnetic gradiometer measurements
Author(s) -
Sattel Daniel,
Macnae James
Publication year - 2001
Publication title -
geophysical prospecting
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.735
H-Index - 79
eISSN - 1365-2478
pISSN - 0016-8025
DOI - 10.1046/j.1365-2478.2001.00244.x
Subject(s) - gradiometer , noise (video) , sensitivity (control systems) , noise reduction , interference (communication) , acoustics , geology , remote sensing , noise measurement , image resolution , ambient noise level , physics , optics , computational physics , geophysics , magnetometer , magnetic field , computer science , telecommunications , electronic engineering , sound (geography) , channel (broadcasting) , quantum mechanics , artificial intelligence , engineering , image (mathematics)
The quantities measured in transient electromagnetic (TEM) surveys are usually either magnetic field components or their time derivatives. Alternatively it might be advantageous to measure the spatial derivatives of these quantities. Such gradiometer measurements are expected to have lower noise levels due to the negative interference of ambient noise recorded by the two receiver coils. Error propagation models are used to compare quantitatively the noise sensitivities of conventional and gradiometer TEM data. To achieve this, eigenvalue decomposition is applied on synthetic data to derive the parameter uncertainties of layered‐earth models. The results indicate that near‐surface gradient measurements give a superior definition of the shallow conductivity structure, provided noise levels are 20–40 times smaller than those recorded by conventional EM instruments. For a fixed‐wing towed‐bird gradiometer system to be feasible, a noise reduction factor of at least 50–100 is required. One field test showed that noise reduction factors in excess of 60 are achievable with gradiometer measurements. However, other collected data indicate that the effectiveness of noise reduction can be hampered by the spatial variability of noise such as that encountered in built‐up areas. Synthetic data calculated for a vertical plate model confirm the limited depth of detection of vertical gradient data but also indicate some spatial derivatives which offer better lateral resolution than conventional EM data. This high sensitivity to the near‐surface conductivity structure suggests the application of EM gradiometers in areas such as environmental and archaeological mapping.

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