The seismoelectrical method (which is different from the electroseismic physical principle) is based on the generation of

electromagnetic field An electromagnetic field (also EM field or EMF) is a classical (i.e. non-quantum) field produced by (stationary or moving) electric charges. It is the field described by classical electrodynamics (a classical field theory) and is the classica ...

s in soils and rocks by

seismic wave A seismic wave is a wave of acoustic energy that travels through the Earth. It can result from an earthquake, volcanic eruption, magma movement, a large landslide, and a large man-made explosion that produces low-frequency acoustic energy. ...

s. This technique is still under development and in the future it may have applications like detecting and characterizing fluids in the underground by their electrical properties, among others, usually related to fluids (porosity, transmissivity, physical properties).

Operation

When a seismic wave encounters an interface, it creates a charge separation at the interface forming an

electric dipole The electric dipole moment is a measure of the separation of positive and negative electrical charges within a system, that is, a measure of the system's overall polarity. The SI unit for electric dipole moment is the coulomb-meter (C⋅m). The d ...

. This dipole radiates an electromagnetic wave that can be detected by antennae on the ground surface. As the seismic ( P or

compression Compression may refer to: Physical science *Compression (physics), size reduction due to forces *Compression member, a structural element such as a column *Compressibility, susceptibility to compression *Gas compression *Compression ratio, of a c ...

) waves stress earth materials, four geophysical phenomena occur: # The resistivity of the earth materials is modulated by the seismic wave; # Electrokinetic effects analogous to streaming potentials are created by the seismic wave; # Piezoelectric effects are created by the seismic wave; and # High-frequency, audio- and high-frequency radio frequency impulsive responses are generated in sulfide minerals (sometimes referred to as RPE). The dominant application of the electroseismic method is to measure the

electrokinetic effect Electrohydrodynamics (EHD), also known as electro-fluid-dynamics (EFD) or electrokinetics, is the study of the dynamics of electrically charged fluids. It is the study of the motions of ionized particles or molecules and their interactions with e ...

or streaming potential (item 2, above). Electrokinetic effects are initiated by sound waves (typically P-waves) passing through a porous rock inducing relative motion of the rock matrix and fluid. Motion of the ionic fluid through the

capillaries A capillary is a small blood vessel from 5 to 10 micrometres (μm) in diameter. Capillaries are composed of only the tunica intima, consisting of a thin wall of simple squamous endothelial cells. They are the smallest blood vessels in the body: ...

in the rock occurs with cations (or less commonly, anions) preferentially adhering to the capillary walls, so that applied pressure and resulting fluid flow relative to the rock matrix produces an electric dipole. In a non-homogeneous formation, the seismic wave generates an oscillating flow of fluid and a corresponding oscillating electrical and EM field. The resulting EM wave can be detected by electrode pairs placed on the ground surface. However, P-waves moving through a solid that contains some moisture also generates an electric phenomenon called coseismic waves. The coseismic waves travel with P-waves and are not sensitive to electrical properties of the subsurface. The dipole antenna cannot distinguish electrokinetic signal from coseismic signal so it records them both, and coseismic waves must be removed while processing field data to be able to actually interpret electrokinetic effect Zyserman, F., Jouniaux, L., Warden, S., and Garambois, S. (2015). "Borehole seismoelectric logging using a shear-wave source: Possible application to CO2 disposal?." International Journal of Greenhouse Gas Control, 10.1016/j.ijggc.2014.12.009, 89-102. At the moment, there is not a field routine operation method, but in scientific studies an array of several dipole antennas is placed along a straight line to record seismoelectric waves, and an array of geophones placed between dipole antennas to record seismic wave arrivals. Geophones are necessary to be able to suppress coseismic waves from the seismoelectric signal, so that electrokinetic effect can be separated and studied.

Limitations

The electroseismic method is very susceptible to electrical cultural noise, and has also the same noise sources as reflection seismic method, which include ground roll, multiples and random noise. Seismoelectrical method also has a very low signal-to-noise ratio, because the attenuation of electromagnetic waves inside the earth is 1/r^3, thus theoretically limiting its depth of exploration to three hundred meters. Typical electroseismic signals are at the microvolt level. The electroseismic signal is proportional to the pressure of the seismic wave. Thus it is possible to increase the signal by using stronger seismic sources. The electrokinetic effect is produced by several kinds of contrasts between layers like porosity contrasts, potential contrasts, viscosity contrasts and saturation in fluids contrasts among others. The possible causes of elektronkinetic effect between layers is still now a matter of study. With nowadays knowledge and technology it's really hard to determine without further data (like borehole or other geophysics data from the location), what are electrokinetic conversions produced by, and further studies will have to be carried out to be able to interpret electrokinetic data correctly. Although that, the electrokinetic effect has a promising future in near-surface and borehole geophysics.

Examples of successful field studies

The propagation of seismic waves in porous rocks is associated with a small transient deformation of

rock matrix The matrix or groundmass of a rock is the finer-grained mass of material in which larger grains, crystals, or clasts are embedded. The matrix of an igneous rock consists of finer-grained, often microscopic, crystals in which larger crystals, ca ...

and pore space which can cause electromagnetic fields of observable amplitude if the pores are saturated. Seismoelectric field measurements are expected to help localize permeable layers in porous rocks and provide information about anelastic properties. This theoretical potential for hydrogeological applications, however, is so far confirmed only by a very limited number of successful field studies. As a consequence, the seismoelectric method is still far from being routinely used.

Operation

Limitations

Examples of successful field studies

See also

References

Further reading