1. Arulanandan, K. H. and J. Mitchell, "Low frequency dielectric dispersion of clay water electrolyte systems," Clays Clay Miner, Vol. 16, 337-351, 1968.
doi:10.1346/CCMN.1968.0160503 Google Scholar
2. Lockhart, N. C., "Electrical properties and surface characteristics and structure of clays," Journal of Colloidal Interface Science, Vol. 74, No. 2, 520-529, 1979.
doi:10.1016/0021-9797(80)90221-0 Google Scholar
3. Malik, Q. M., Electrical and transport properties of sedimentary reservoir rocks, Ph.D. thesis, Department of Earth Resources Engineering, Royal School of Mines, Imperial College, University of London, UK, 1997.
4. Malik, Q. M., B. R. P. da Rocha, and M. S. King, "Fractal electromagnetic parameters of sedimentary reservoir rocks under high pressures," Progress in Electromagnetic Research Symposium Proceedings, Cambridge, Massachusetts, USA, July 11, 1997. Google Scholar
5. Da Rocha, B. R. P., Modelo fractal para resistividade complexa de rochas: Sua interpretac cao petrofisica e aplicac cao a explorac cao geoletrica, tese de doutorado, Universidade Federal do Para, Centro de Geociencias, 1995.
6. Rocha, B. R. P. and T. M. Habashy, "Fractal geometry, porosity and complex resistivity. I from rough pore interfaces to hand specimens," Developments in Petrophysics, Lovell, M. A., London Geological Society, Special Publication, 1995. Google Scholar
7. Scott, J. H., R. D. Carroll, and D. R. Cunningham, "Dielectric constant and electrical conductivity measurements of moist rock : A new laboratory method," Journal of Geophysical Research, Vol. 72, 5101-5115, 1967.
doi:10.1029/JZ072i020p05101 Google Scholar
