When it comes to field experts, GeoSonics/Vibra-Tech is the expert in the field. From surface to underlying strata, our expertise gives you the information you need for a clear evaluation of existing conditions on your new site.
Seismic Reflection
GeoSonics/Vibra-Tech’s seismic reflection gives you deep insight when you need it most. Rely on us when you need to know more of what’s in store below the surface.
VLF Surveys
Our low-frequency testing methods get high marks when it comes to locating underground resources.
Seismic Tomography
Need a sound way to improve your subsurface imaging? GeoSonics/Vibra-Tech takes our seismic reflection technique to the next level with seismic tomography.
Seismic Refraction
Want a fast, cost-effective, low-involvement imaging solution? GeoSonics/Vibra-Tech’s seismic refraction delivers more bang for your buck.
Electrical Resistivity
Electrical resistivity testing is the answer to a wide range of subsurface problems and objectives, and is becoming a logical, reliable tool for everyday use in engineering applications.
Ground Penetrating Radar
Ground Penetrating Radar (GPR) is GeoSonics/Vibra-Tech’s most widely used and broadest range solution for seeing virtually anything below the surface.
Electromagnetic Conductivity
Electromagnetic surveys are a simple solution for shallow underground imaging, with applications from archaeological and environmental to highway infrastructure conditions.
Magnetics
Magnetic methods, including magnetometry and microgravity surveys, are a popular, effective approach for near-surface metal detection – and GeoSonics/Vibra-Tech is synonymous with accuracy, quality and reliability in the field.
(MASW) Multi-Channel Analysis of Surface Waves
New problems need new solutions. GeoSonics/Vibra-Tech’s multi-channel analysis is a modern solution to the growing problem of subsurface imagery in today’s noisy construction sites and urban environments.
Cross-Hole Seismic Surveys
Cross-hole seismic surveys have proven value for non-invasive investigations of geological structures and have become the most common method of measuring and detecting hazards beneath the surface.