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Developed in the 1970’s, Ground Penetrating Radar (GPR) uses radio waves to detect and map underground objects and soil/rock strata. In the last three decades archaeologists have made extensive use of the technology. It allows them to detect, map and analyze archaeological remains without putting a shovel into the ground.

How it works

The science behind GPR is complex and has been the source of plenty of headaches for archaeology students. A very basic explanation of the technology works like this:

The antenna of a GPR system shoots radio pulses into the ground. Each pulse travels through the ground as a wave.

Within the ground there are different layers of subsurface materials (soils, rocks and, hopefully, archaeological remains).

Every time this wave comes in contact with a new layer of soil or debris, the velocity of the wave changes. This causes some of the energy of the wave to “bounce” back as a reflected wave.

About The Author

Owen Jarus

Owen Jarus is a freelance writer based in Toronto ,Canada. He has written articles on archaeology for a variety of media outlets including The Canadian Press newswire (CP), U of T Magazine, The Mississauga News and The Guelph Mercury. Education: BA from the University of Toronto in History, Geography and Near & Middle Eastern Civilizations. BJourn in Journalism from Ryerson University.

Last three pieces by this author: So You Want to go North? Ontario Archaeology Conference Will Look at the Canadian Shield, What was the Most Important Site in Ancient London? The Forum!, They’ve found an opening! Egyptologists reach end of tunnel in Seti I tomb