Selected Publications
1.21 Fanini, O., Haines, H., Hunziker, J., Maurer, H.-M., R. Siegfried II, and Strack, K.-M., 1999, A Major Technology Breakthrough - Cased-Hole Resistivity Tool , in-depth , 5, 12-25. (senior author)
1.20 Singer, B. Sh., and Strack, K.-M., 1998, New aspects of through-casing resistivity theory, Geophysics, 63, 52-63.
1.18 Tabarovsky, L.A., Goldman, M.M., Rabinovich, M.B., Strack, K.-M., 1996, 2.5-D Modeling in electromagnetic methods of geophysics, Journal of Applied Geophysics , 35, 261-284.
1.19 Strack, K.-M., Vozoff, K., 1996, Integrating long-offset transient electromagnetics (LOTEM) with seismics in an exploration environment, Geophysical Prospecting, 44, 99-101.
1.16 Wolfgram, P.A., Casten, U, Gatto, H., Neubauer, F.M., Richter, J.E.T., Strack, K.-M., 1992, Interpretation of Borehole Gravity Data from the German Continental Deep Drilling Project, Scientific Drilling, 3, 70-75.
1.17 Hördt, A., Druskin, V.L., Knizhnerman, L.A., Strack, K.-M., 1992, Interpretation of 3-D effects in long-offset transient electromagnetic (LOTEM) soundings in the Münsterland area /Germany, Geophysics, 57, 1127-1137.
1.10 Stephan, A., Schniggenfittich, H., Strack, K.-M., 1991, Long-offset transient EM sounding north of the Rhine-Ruhr coal district, Geophysical Prospecting, 39, 505-525.
1.11 Stephan, A., Strack, K.-M. 1991, A simple approach to improve the signal to noise ratio for TEM' data using multiple receivers, Geophysics, 56, 863-869.
1.12 Strack, K.-M., Hördt, A., Vozoff, K., Wolfgram, P.A, 1991, Integrated electromagnetic and seismic methods for petroleum exploration, Exploration Geophysics, 22, 375-378.
1.13 De Beer, J. H., Le Roux, C. L., Hanstein, T., Strack, K.-M., 1991, Direct current resistivity and LOTEM model for the deep structure of the northern edge of the Kaapvaal Craton, South Africa, Physics of the Earth and Planetary Interior, 66, 51-61.
1.14 Hördt, A., Jödicke, H., Strack, K.-M., Vozoff, K., Wolfgram, P.A., 1991, Inversion of long-offset TEM soundings near the borehole Münsterland 1, Germany, and comparison with MT measurements, Geophys. J. Internatl., 108, 930-940.
1.15 Strack, K.-M., 1991, German Transient EM Systems, in Nabighian, M.N., (ed), Electromagnetic Method Vol II, Soc. Explor. Geophys., 422-425.
1.9 Strack, K.-M., Lüschen, E., Kötz, A. W., 1990, Long-offset transient electromagnetic (LOTEM) depth soundings applied to crustal studies in the Black Forest and Swabian Alb, FRG, Geophysics, 55, 834-842.
1.6 Strack, K.-M., Hanstein, T. H., Eilenz, H. N., 1989, LOTEM data processing for areas with high cultural noise levels, Physics of the Earth and Planetary Interior, 53, 261-269.
1.7 Wilhelm, H., Berktold, A., Bonjer, K.-P., Jäger, K., Stiefel, A., Strack, K.-M., 1989, Heat flow, electrical conductivity and seismicity in the Black Forest crust, SW Germany, in: Mereu, R.F., Müller, S., Fountain, D.M., Properties and Processes of th
1.8 Strack, K.-M., Hanstein, T., Lebrocq, K., Moss, D. C., Petry, H., Vozoff, K., Wolfgram, P. A., 1989, Case histories of LOTEM surveys in hydrocarbon prospective areas, First Break, 7, 467-477.
1.4 Greinwald, S., Strack K.-M., 1986, Transient Elektromagnetik (TEM) Erkundung der Leitfähigkeit mit wandernden Stromsysteme, Geophysikalische Schlüsselexperimente in der KTB, 45-53.
1.5 Strack, K.-M., 1986, Analyse der Störungen des Erdschwerefeldes in der Kontinentalen Tiefbohrung (Bohrlochgravimetrie) , FKPE (Hrsg.), Geophysikalische Schlüsselexperimente in der KTB, 69-77.
1.3 Strack, K. -M., 1985, Das Transient-Elektromagnetische Tiefensondierungsverfahren angewandt auf die Kohlenwasserstoff und Geothermie Exploration, in: Ebel, A., Neubauer, F. M., Raschke, E., Speth, P. (Hrsg.), Mitt. des Institutes f. Geophys. u. Met. d
1.2 Strack, K. -M., 1984, The deep transient electromagnetic sounding technique: First field-test in Australia, Exploration Geophysics, 15, 451-459.
1.1 Strack, K.-M., Ibrahim, A. W., Keller, G. V., Stoyer, C. H., 1982, A method for the determination of thermal conductivity of sandstones using a variable state approach, Geophysical Prospecting, 30, 454-469.
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