Ground Penetrating Radar
What is Ground Penetrating Radar?
Ground penetrating radar (GPR) is a
non-destructive geophysical method that produces a continuous cross-sectional
profile or record of subsurface features, without drilling, probing, or
digging. The GPR cross-section shows the ground surface at the top of the
profile, and the reflections of subsurface geologic units and objects to a
certain depth at the bottom.
Ground penetrating radar (GPR) profiles are
used for evaluating the location and depth of buried objects and to investigate
the presence and continuity of natural subsurface conditions and features.
Ground penetrating radar (GPR) is a tool for
indirectly looking at underground objects (such as graves), gravel and sand
layers, and other underground structures. The information or data received by
GPR is like an x-ray or map of the underground. In fact, GPR uses
electromagnetic (EM) waves, as x-ray machines do, but GPR uses radio waves,
which have a longer wavelength (see Figure 1). The wavelength, or the length of
one wave, is the fundamental difference between the forms of electromagnetic
energy. For example, the wavelength of x-rays range from about 10 billionths of
a meter to about 10 trillionths of a meter, whereas radio waves can be a few
meters long.
