Electromagnetic Conductivity

Electromagnetic Conductivity
The citations below represent work that has implemented electromagnetic in archaeological context. Multiple technique studies that include electromagnetic conductivity are also cross listed in this section.

Beausilion, R., Ch. Benech, and A. Tabbagh (1996). A Two Frequency Slingram Apparatus for Archaeological and Pedological Application. 2nd Environmental and Engineering Geophysical Society Meeting, Nantes, 2-5 September, pp. 15-18.

Bevan, B.W. (1983). Electromagnetics for Mapping Buried Features. Journal of Field Archaeology 10(1):47-54.

Camerlynck, C., M. Dabas, and C. Panissod (1994). Comparison Between GPR and four Electromagnetic Methods for Stone Features Characterization: An Example. Archaeological Prospection, Vol. 1: 5-17.

Cornelison, J.E., Jr. (1997). An Archeological and Electromagnetic Survey of Moores Creek National Battlefield (31PD273), Pender County, North Carolina. SEAC Technical Reports 6, Southeast Archeological Center, National Park Service, Tallahassee, Florida.

Dalan, R.A. (1989). Geophysical Investigations of the Prehistoric Cahokia Palisade Sequence. Illinois Cultural Resources Study No. 8. Illinois Historic Preservation Agency, Springfield.

Dalan, R.A. (1989). Electromagnetic Reconnaissance of the Central Palisade at the Cahokia Mounds State Historic Site. The Wisconsin Archeologist 70(3):309-332.

Dalan, R.A. (1989). Defining Archaeological Features with Electromagnetic Surveys at the Cahokia Mounds State Historic Site. 59th Annual Internat. Mtg., Soc. Expl. Geophys., Expanded Abstracts 89:285.

Dalan, R.A. (1991). Defining Archaeological Features with Electromagnetic Surveys at the Cahokia Mounds State Historic Site. Geophysics 56(8):1280-1287.

Dalan, R.A. (1993). Issues of Scale in Archaeological Research. In Effect of Scale on Archaeological and Geoscientific Perspectives, J. K. Stein and A. R. Linse, eds., pp. 67-78. Special Paper 283. Geological Society of America, Boulder, Colorado.

Dalan, R.A. (1993). Landscape Modification at the Cahokia Mounds Site: Geophysical Evidence of Cultural Change. Unpublished PhD. Dissertation, University of Minnesota, Minneapolis.

Dalan, R.A. (1995). Geophysical Surveys for Archaeological Research: Electromagnetic Surveys. Ms. on file, Interagency Archeological Services, National Park Service, Denver.

Deignan, T. and W. Brennan (1992). EM Data Acquired at Brown Sheep Camp. Ms. on file, Interagency Archeological Services, National Park Service, Denver.

Dolphin, L.T., R.L. Bollen, and G.N. Oetzel (1974). An Underground Electromagnetic Sounder Experiment. Geophysics 39(1):49-55.

Frischknecht, F. C., V. F. Labson, B. R. Spies, and W. L. Anderson (1991). Profiling Methods Using Small Sources. In Electromagnetic Methods in Applied Geophysics, Vol. 2., M. N. Nabighiam, ed., pp. 15-270. Society of Exploration Geophysicists, Tulsa, Oklahoma.

Groh, L. (1998). Moores Creek National Battlefield: Archeological Overview and Assessment. SEAC Accession No. 1285. Southeast Archeological Center, National Park Service, Tallahassee, Florida.

Howell, M. (1966). A Soil Conductivity Meter. Archaeometry 9:20-23.

Howell, M. (1968). An Electro-magnetic Technique for the Location of Anomalous Soil Features. Bulletin of the Bristol Archaeological Research Group 3(2):32-34.

Howell, M. (1968). The Soil Conductivity Anomaly Detector (SCM) in Archaeological Prospection. Prospezioni Archeologiche 3:101-104.

Kluth, R. and D. Kluth (1995). A Phase I Archaeological Survey of U.S.T.H. 11 for Pelland to the NE 1/4 of Section 19 (S.P. 3605-32), Koochiching County, Minnesota. Submitted to: Minnesota Departmnet of Transportation, St. Paul, Minnesota.

Kozhevnikov, N. O. and S. P. Nikiforov (1995). Magnetic Viscosity of Fired Clays and Possibility of it Use for Archaeological Prospection. In Science & Site: Evaluation and Conservation, J. Beavis and K. Barker, eds., pp. 163-169. Occasional Paper 1. School of Conservation Sciences, Bournemouth University, Poole, England.

Kvamme, K.L. (2000). Current Practices in Archaeogeophysics: Magnetics, Resistivity, Conductivity, and Ground-Penetrating Radar. In Earth Sciences an Archaeology, P. Goldberg, V. Holliday, and R. Ferring, eds., Plenum Press, New York, in press.

Mather, D., E.J. Abel, D.W. Johnson, and P. McGinley (1997). Burial Authentification Investigations at the Reported Location of the Smith Lake Cemetery, Wright County, Minnesota. Loucks & Associates, Inc., Maple Grove, Minnesota.

Mather, D., D.W. Johnson, and E.J. Abel (1997). Burial Authentification Investigations of the Medicine Lake Mounds (21 HE 0068) for the Proposed West Medicine Lake Park Improvements - Phase II, City of Plymouth, Hennepin County, Minnesota. Loucks & Associates, Inc., Maple Grove, Minnesota.

Mc Neill, J. D. (1980). Electrical Conductivity of Soils and Rocks. Technical Note TN-5. Geonics Limited, Mississauga, Ontario, Canada.

Mc Neill, J. D. (1980). Electromagnetic Terrain Conductivity Measurement at Low Induction Numbers. Technical Note TN-6. Geonics Limited, Mississauga, Ontario, Canada.

Parchas, C., and A. Tabbagh (1979). Simultaneous Measurements of Electrical Conductivity and Magnetic Susceptibility of the Ground in Electro-magnetic Prospecting. Archaeo-Physika 10:682-691.

Scollar, I. (1962). Electromagnetic Prospecting Methods in Archaeology. Archaeometry 5:146-153.

Tabbagh, A. (1984). On the Comparison between Magnetic and Electromagnetic Prospection Method for Magnetic Features Detection. Archaeometry 26(2):171-182.

Tabbagh, A. (1984). Interest in the Slingram EM Method for Archaeological Prospecting. 54th Annual Internat. Mtg., Soc. Expl. Geophys., Expanded Abstracts 84:206-208.

Tabbagh, A. (1985). The Response of a Three Dimensional Magnetic and Conductive Body in Shallow Depth Electromagnetic Prospecting. Geophysical Journal of the Royal Astronomical Society 81:215-230.

Tabbagh, A. (1986). What is the Best Coil Orientation in the Slingram Electromagnetic Prospecting Method? Archaeometry 28(2):185-196.

Tabbagh, A. (1986). Applications and Advantages of the Slingram Electromagnetic Method for Archaeological Prospecting. Geophysics 51(3):576-584.

Tabbagh, A. (1994). Simultaneous Measurements of Electrical Conductivity and Dielectric Permittivity of Soils Using a Slingram Electromagnetic Device in Medium Frequency Range. Archaeometry 36(1):159-170.

Tabbagh, A., A. Hesse, and R. Grard (1993). Determination of Electrical Properties of the Ground at Shallow Depth with an Electrostatic Quadripole: Filed Trails on Archaeological Sites. Geophysical Prospecting 41:579-597.

Tite, M. S. and C. Mullins (1969). Electromagnetic Prospecting: A Preliminary Investigation. Prospezioni Archeologiche 4:95-102.

Tite, M. S. and C. Mullins (1970). Electromagnetic Prospecting on Archaeological Sites Using a Soil Conductivity Meter. Archaeometry 12(1):97-104.

Weymouth, J.W. (1998). On Two Tests Using the EM38 at the Lake Dumond Site, Arkansas. University of Nebraska, Lincoln, NE. Submitted to the Midwest Archeological Center, National Park Service. Purchase Order 1443-PX-6115-97-0109.