Banos, Jr., A., Dipole Radiation in the Presence of Conducting Half-Space, 245 pp., Pergamon, Oxford, 1966.
Bernard, P., Plausibility of long distance electrotelluric precursors to earthquakes, J. Geophys. Res., 97, (B12), 17,531-17,546, 1992.
Bishop, J. R., Piezoelectric effects in quartz-rich rocks, Tectonophysics, 77, 297-321, 1981.
Biot, M. S., Theory of propagation of elastic waves in a fluid-saturated porous solid, 1. Low frequency range, Journal of the Acoustical Society of America, 28, 168-178, 1956.
Breiner, S., Piezomagnetic effect at the time of local earthquakes, Nature, 202, 68-69, 1964.
Carmichael, R. S., ed., CRC Practical handbook of physical properties of rocks and minerals, CRC press, Inc, 741 pp., 1989.
Chmyrev, V. M., V. N. Isaev, S. V. Bilichenko, and G. Stanev, Observation by space-borne detectors of electric fields and hydromagnetic waves in the ionosphere of an earthquake zone, Phys. Earth Planetary Interiors, 110, 1989.
Cress, G. O., B. T. Brady, and A. A. Rowell, Source of electromagnetic radiation from fracture of rock samples in the laboratory, Geophys. Res. Lett., 14, (4), 331-334, 1987.
Derr, J., Earthquake's lights: A review of observational and present theories, Bull. Seismol. Soc. Am., 63, 2177-2187, 1973.
Deryagin, B. V., N. A. Krotova, and V. P. Smilga, Adhesion in Solids, Nauka, Moscow, 1973 (in Russian).
Dobrovolsky, I. P., The theory of preparation of a tectonic earthquake, 219 pp., IFZ Akad. Nauk SSSR, Moscow, 1991 (in Russian).
Dobrovolsky, I. P., N. I. Gershenzon, and M. B. Gokhberg, Theory of Electrokinetic Effects Occurring at the Final State in the Preparation of a Tectonic Earthquake, Physics of the Earth and Planetary Interiors, 57, 144-156, 1989.
Dobrovolsky, I. P., S. I. Zubkov, and V. I. Myachkin, Estimation of the size of earthquake preparation zones, Pure Appl. Geophys., 117, (5), 1025-1044, 1979.
Draganov, A. B., U. S. Inan, and Yu. N. Taranenko, ULF magnetic signature at the Earth surface due to ground water flow: A possible precursor to earthquake, Geophys. Res. Lett., 18, 1127-1130, 1991.
Edwards, R. N., The magnetometric resistivity method and its application to the mapping of a fault, Can. J. Earth Sci., 11, 1136-1156, 1975.
Eftaxias, K., J. Kopanas, N. Bogris, P. Kapiris, G. Antonopoulos and P. Varotsos, Detection of electromagnetic earthquake precursory signals in Greece, Proc. Japan Acad., 76(B), 45-50, 2000.
Eftaxias, K., P. Kapiris, J. Polygiannakis, N. Bogris, J. Kopanas, G. Antonopoulos, A. Peratzakis, and V. Hadjicontis, Signatures of Pending Earthquake from Electromagnetic Anomalies, Geophys. Res. Lett., 28, (17), p. 3321, 2001.
Eleman, F., The response of magnetic instruments to earthquake waves, J. Geomagn. Geoelectr., 18, (1), 43-72, 1965.
Fenoglio, M. A., M. J. S. Johnston, and J. D. Byerlee, Magnetic and electric fields associated with changes in high pore pressure in fault zones; application to the Loma Prieta ULF emissions, J. Geophys. Res., 100, 12,951-12,958, 1995.
Finkel, V. M., Yu. I. Tyalin, and Yu. I. Golovin, Electrization of alkali-haloid crystals during fracture, Solid State Phys., 21, 1943-1947, 1985.
Fitterman, D. V., Electrokinetic and magnetic anomalies associated with dilatant regions in a layered earth, J. Geophys. Res., 83, (B12), 5923-5928, 1978.
Fitterman, D. V., Theory of electrokinetic-magnetic anomalies in a faulted half-space, J. Geophys. Res., 84, (B12), 6031-6040, 1979a.
Fitterman, D. V., Calculations of self-potential anomalies near vertical contacts, Geophysics, 44, 1995-2005, 1979b.
Fitterman, D. V., Correction to "Theory of electrokinetic-magnetic anomalies in a faulted half-space'', J. Geophys. Res., 86, 9585-9588, 1981.
Fraser-Smith, A. C., A. Bernardi, P. R. McGill, M. E. Ladd, R. A. Helliwell, and O. G. Villard, Jr., Low-frequency magnetic field measurements near the epicenter of the Ms 7.1 Loma Prieta earthquake, Geophys. Res. Lett., 17, 1465, 1990.
Frenkel, A. I., On the theory of seismic and seismoelectrical phenomena on water-saturated rocks, Izv., Acad. Sci., USSR, Ser. Geogr. Geophys., 8, 134-150, 1944.
Fujinawa, Y., and K. Takahashi, Emission of Electromagnetic radiation preceding the Ito seismic swarm of 1989, Nature, 347, 376-378, 1990.
Fujinawa, Y., and K. Takahashi, Electromagnetic radiations associated with major earthquakes, Physics of the Earth and Planetary Interiors, 105, 249-259, 1998.
Fujinawa, Y., K. Takahashi, T. Matsumoto, and N. Kawakami, Experiments to locate sources of earthquakes-related VLF-electromagnetic signals, Proc. Japan. Acad., 73(B), (3), 33-38, 1997.
Fukutomi, T., Report of the Strong Izu earthquake of March 21, 1934, Bull. Earthq. Res. Inst., Univ. Tokyo, XII, (3), 527-538, 1934.
Gershenzon, N. I., Seismoelectromagnetic field of electrokinetic nature, Izvestiya Russia Akademii Nauk, Earth Physics, 28, (7), 589-596, 1992.
Gershenzon, N. I., and M. B. Gokhberg, On the origin of electrotelluric disturbances prior to earthquakes, EMC 1989, Nagoya, Japan, September 5-10, Vol. 1, 116-122, 1989.
Gershenzon, N. I., and M. B. Gokhberg, On earthquake precursors in geomagnetic field variations of electrokinetic nature, Izvestiya Russia Akademii Nauk, Physics of the Solid Earth. 9, 100-105, 1992.
Gershenzon, N. I., and M. B. Gokhberg, On Origin of the Electrotelluric field Disturbances Prior to an Earthquake in Kalamata, Greece, Tectonophysics, 224, 169-174, 1993.
Gershenzon, N. I., and M. B. Gokhberg, On the origin of anomalous ultralow-frequency geomagnetic disturbances prior to the Loma Prieta, California, earthquake, Physics of the Solid Earth, 30, (2), 112-118, 1994.
Gershenzon, N. I., D. O. Zilpimiani, P. V. Mandzhgaladze, O. A. Pokhotelov, and Z. T. Chelidze, Electromagnetic Emission of the Crack Top During Rupture of Ionic Crystals, Dokl. Akad. Nauk SSSR, 288, (1), 75-78, 1986.
Gershenzon, N. I., M. B. Gokhberg, V. A. Morgunov, and V. N. Nikolaevskiy, Sources of Electromagnetic Emissions Preceding Seismic Events, Izvestiya Akademii Nauk SSSR, Physics of the Solid Earth, 23, (2), 96-101, 1987.
Gershenzon, N. I., M. B. Gokhberg, A. V. Karakin, N. V. Petviashvili, and A. L. Rykunov, Modeling the Connection between Earthquake Preparation Processes and Crustal Electromagnetic Emission, Physics of the Earth and Planetary Interiors, 57, 129-138, 1989a.
Gershenzon, N. I., M. B. Gokhberg, and I. P. Dobrovol'sky, Computation of Short-Range Earthquake Precursors in Electrotelluric Field, Izvestiya Akademii Nauk SSSR, Physics of the Solid Earth, 25, (11), 901-912, 1989b.
Gershenzon, N. I., M. B. Gokhberg, Yu. P. Kurchashov, E. B. Chirkov, V. I. Chernyi, A. V. Drumya, and M. M. Bogorodsky, On the Generation of Electrotelluric Fields by Crustal Geodynamic Processes, Proceeding of International Wroclaw Symposium on Electromagnetic Compatibility 06.26-29, Vol. 2, 877-881, 1990.
Gershenzon, N. I., M. B. Gokhberg, and S. L. Yunga, On the Electromagnetic Field of an Earthquake Focus, Physics of the Earth and Planetary Interiors, 77, 13-19, 1993.
Gershenzon, N. I., M. B. Gokhberg, and A. V. Gul'yel'mi, Electromagnetic field of seismic pulses, Physics of the Solid Earth, 29, (9), 789-194, 1994.
Ghomshei, M. M., and T. L. Templeton, Piezoelectric and a-axes fabric along quartz vein, Physics of the Earth and Planetary Interiors, 55, 374-386, 1989.
Gokhberg, M. B., V. A. Morgounov, and E. L. Aronov, On the high-frequency electromagnetic radiation associated with seismic activity, Dokl. Akad. Nauk SSSR, 248, (5) 1077-1081, 1979.
Gokhberg, M. B., V. A. Morgounov, T. Yoshino, and I. Tomizawa, Experimental measurement of electromagnetic emissions possibly related to earthquakes in Japan, J. Geophys. Res., 87, (B9), 7884-7888, 1982.
Gokhberg, M. B., I. L. Gufel'd, N. I. Gershenzon, and V. A. Pilipenko, Electromagnetic Effects During Rupture of the Earth's Crust, Izvestiya Akademii Nauk SSSR, Physics of the Solid Earth, 21, (1), 52-63, 1985.
Gokhberg, M. B., V. A. Morgounov, and I. V. Matveev, On the observation of anomalous electromagnetic emission in the epicentral zone of earthquake, Izv. AN SSSR, Fiz. Zemli, 8, 95-97, 1986.
Gokhberg, M. B., V. A. Morgounov, and O. A. Pokhotelov, Earthquake Prediction: Seismo-electromagnetic phenomena, 191 pp., Gordon and Breach Publishers, 1995.
Grigoryev, A. I., N. I. Gershenzon, and M. B. Gokhberg, Parametric Instability of Water Drops in an Electric Field as a Possible mechanism for Luminous Phenomena Accompanying Earthquakes, Physics of the Earth and Planetary Interiors, 57, 139-143, 1989.
Hanjicontis, V., and C. Mavromatou, Laboratory investigation of the electric signals preceding earthquakes, in A critical review of VAN: Earthquake prediction from seismic electric signals, ed. Sir J. Lighthill, World Scientific Publishing Co., Singapore, 106-117, 1996.
Hao, J. Q., L. M. Hastie, and F. D. Stacey, Theory of seismomagnetic effect: A reassessment, Physics of the Earth and Planetary Interiors, 28, 129-140, 1982.
Hayakawa, M., R. Kawate, O. A. Molchanov, and K. Yumoti, Result of ultra-low-frequency magnetic field measurements during the Guam earthquake of 8 August 1993, Geophys. Res. Lett., 23, (3), 241-244, 1996.
Hayakawa, M., and Y. Fujinawa, Electromagnetic Phenomena Related to Earthquake Prediction, Terra Scientific Publ., Tokyo, 677 pp., 1994.
Honkura, Y., and S. Kubo, Local anomaly in magnetic and electric field variations due to a crustal resistivity change associated with tectonic activity, J. Geomag. Geoelect., 38, 1001-1014, 1986.
Ishido, T., and H. Mizutani, Experimental and theoretical basis of electrokinetic phenomena in rock-water systems and its application to geophysics, J. Geophys. Res., 86, 1763-1775, 1981.
Ivanov, A. G., Effect of electrization of earth layers by elastic waves passing through them, Comptes Rendus (Doklady) de l'Academic des Sciences de l'URSS, v. 24, no. 1, pp. 42-45, 1939.
Johnston, M. J. S., Review of magnetic and electric field effects near active faults and volcanoes in the U.S.A., Phys. Earth Planet. Inter., 57, 47-63, 1989.
Johnston, M. J. S., Review of electric and magnetic fields accompanying seismic and volcanic activity, Surveys in Geophysics, 18, 441-475, 1997.
Johnston, M. J. S., and R. J. Mueller, Seismomagnetic observation during the 8 July 1986 magnitude 5.9 North Palm Springs Earthquake, Science, 237, 1201-1203, 1987.
Kanamori, H., A seismologist's view of VAN, in A critical review of VAN: Earthquake prediction from seismic electric signals, ed. Sir J. Lighthill, World Scientific Publishing Co., Singapore, 339-345, 1996.
Kalashnikov, A. C., The possible application of magnetometric methods to the question of earthquake indications, Trudy Geofiz. Inst. Akad. Nauk SSSR, Sb. Statei, 25, 162-180, 1954.
Kapitsa, S. P., Magnetic properties of eruptive rocks exposed to mechanical stresses, Izv. Akad. Nauk SSSR, 86, 521-523, 1955.
Karakin, A. V., On the derivation of averaged equations of motion for a three-component granular medium, Izv. Akad. Nauk SSSR, Fiz. Zemli (Solid Earth), (1), 57-66, 1986.
Karakin, A. V., and L. I. Lobkovsky, On derivation of equations for a three-component visco-deformable medium (crust and the asthenosphere), Izv. Akad. Nauk SSSR, Fiz. Zemli (Solid Earth), (12), 3-13, 1985.
Kepis, A. W., M. Maxwell, and R. D. Rusell, Field trials of a seismoelectric method for detecting massive sulfides, Geophysics, 60, 365-373, 1995.
Kern, J. W., Effect of moderate stresses on directions of thermoremnant magnetization, J. Geophy. Res., 66, 3801-3805, 1961.
Khatiashvili, N. G, On the electromagnetic effect from cracking in alkali-halogen crystals and rocks, Izv. Akad. Nauk SSSR, Fiz. Zemli (Solid Earth), (9), 13-19, 1984.
Kopytenko, Yu. A., T. G. Matiashvili, P. M. Voronov, E. A. Kopytenko, and O. A. Molchanov, Detection of ultra-low-frequency emissions connected with the Spitak earthquake and its aftershock activity, based on geomagnetic pulsations data at Dusheti and Vardzia observations, Phys. Earth Planet. Int., 77, 85-95, 1993.
Kornfeld, M. I., Ion crystal electrization under stress, Usp. Fiz. Nauk, 116, 327-339, 1975.
Kostrov B. V., Mechanics of the origin of tectonic earthquake, 176 pp., Nauka, Moscow, 1975.
Kuksenko, V. S., A. I. Lyshkov, K. M. Mirzoev, et al., Relation between the sizes of cracks and duration of the seismic energy release, Dokl. Akad. Nauk SSSR, 264, (4), 846-848, 1982.
Landau, L. D., and E. M. Lifshitz, The classical theory of fields, 3rd revised Eng. Ed., M. Hamermesh, transl., 354 pp., Pergamon, Oxford and Addison-Wesley, Reading, MA, 1971.
Landau, L. D., and E. M. Lifshitz, Theory of elasticity, 3rd revised Eng. Ed. J. B. Sykes and W. H. Reid, transl., 187 pp., Pergamon, Oxford and New York, 1986.
Leland, T. L., and W. K. Rivers, Field measurement of the electroseismic response, Geophysics, 40, (2), 233-245, 1975.
Lighthill, J., ed., A critical review of VAN: Earthquake prediction from seismic electric signals, 376 pp., World Scientific Publishing Co., Singapore, 1996.
Malyshkov, Yu. P., K. B. Jumabaev, T. A. Omurkulov, and V. F. Gordeev, Litosphere process affected on the formation of Earth pulsed electromagnetic field and earthquakes forecasting, Vulcanol. Seismol., 1, 92-105, 1998.
Martner, S. T., and N. R. Sparks, The electroseismic effect, Geophysics, 24, (2), 297-308, 1959.
Mastov, Sh. R., V. N. Solomatin, and L. V. Yavorovich, The study of landslide deformation by means of pulsed electromagnetic emission measurements, Engineer. Geol. 2, 98-102, 1983.
Mastov, Sh. R., R. M. Gold, V. N. Solomatin, and L. V. Yavorovich, The study of fracture processes during landslide evolution by means of electromagnetic emission measurements, Engineer. Geol. 1, 68-71, 1984.
Mavlyanov, G. A., V. I. Ulomov, K. N. Abdullabekov, and S. S. Khusamiddinov, A study of the variations in the parameters of natural electromagnetic fields for earthquake prediction purposes, Uzb. Geol. Zh., (5), 11-22, 1979.
Maxwell, M., R. D. Rassell, A. W. Kepic, and K. B. Butler, Electromagnetic responses from seismically excited target, B: Non-piezoelectric phenomena, Exploration Geophysics, 23, 201-208, 1992.
Merzer, M., and S. L. Klemperer, Modeling low-frequency magnetic-field precursors to the Loma Prieta earthquake with precursory increasc in fault-zone conductivity, Pure appl. geophys., 150, 217-248, 1997.
Meyer, K., and R. Pirjola, Anomalous electrotelluric residuals prior to a large imminent earthquake, Tectonophysics, 125, 371-378, 1986.
Migunov, N. I., G. A. Sobolev, and A. A. Khromov, Natural electromagnetic radiation in seismically active areas, Izv. Akad. Nauk SSSR, Fiz. Zemli (Solid Earth), (7), 55-63, 1984.
Miyakoshi, J., Anomalous time variation of the self-potential in the fractured zone of an active fault preceding the earthquake occurrence, J. Geomagn. Geoelectr., 38, 1015-1030, 1986.
Mizutani, H., and T. Ishido, A new interpretation of magnetic field variation associated with the Matsushiro earthquakes, J. Geomagn. Geoelectr., 28, 179-188, 1976.
Mizutani, H., T. Ishido, T. Yokokura, and S. Ohnishi, Electrokinetic phenomena associated with earthquakes, Geophys., Res. Lett., 3, 365-368, 1976.
Molchanov, O. A., and M. Hayakawa, On the generation mechanism of ULF seismogenic electromagnetic emissions, Physics of the Earth and Planetary Interiors 105, 201-210, 1998.
Moore, G. W., Magnetic Disturbances Preceding the 1964 Alaska Earthquake, Nature, 203, (4944), 518-519, 1964.
Mueller, R. J., and M. J. S. Johnston, Review of magnetic field monitoring near active faults and volcanic calderas in California: 1974-1995, Physics of the Earth and Planetary Interiors, 105, 131-144, 1998.
Myachkin, V. I., The Process of Earthquake Preparation, 232 pp., Nauka, Moscow, 1978 (in Russian).
Neyshtadt, N. M., Z. V. Mazanova, L. Ya. Benevich, and M. I. Maiko, Piezoelectric method of exploration (methodological recommendations), ONTI VITR, Leningrad, 1972.
Nitsan, V., Electromagnetic emission accompanying fracture of quartz-bearing rocks, Geophys. Res. Lett., 4, (8), 333-336, 1977.
Noto, H., Some experiments on earth current (II), Jap. J. Astron. Geophys., X, (2), 263-303, 1933.
Ogawa, T., K. Oike, and T. Miura, Electromagnetic variations from rocks, J. Geophys. Res., 90, 6245-6249, 1985.
Oike, K., and T. Ogawa, Electromagnetic radiations from shallow earthquakes observed in the LF range, J. Geomagn. Geoelectr., 38, 1031-1040, 1986.
Oike, K., and H. Yamada, Relation between shallow earthquake and electromagnetic noises in the LF and VLF ranges, in Electromagnetic Phenomena Related to Earthquake Prediction, Hayakawa, M., Fujinawa, Y. (Eds.), Terra Scientific Publ., Tokyo, 115-130, 1994.
Ozima, M., T. Mory, and H. Takayama, Observation of Earth-potential using telegraphic facilities and analysis with BAYTAP-G, J. Geomag. Geoelectr., 41, 945-962, 1989.
Park, S. K., Precursors to earthquakes: seismoelectromagnetic signals, Surveys in Geophysics, 17, 493-516, 1996.
Park, S. K., M. J. S. Johnston, T. R. Madden, F. D. Morgan, and H. F. Morrison, Electromagnetic precursors to earthquakes in the ULF band: a review of observations and mechanisms, Review of Geophysics, 31, 117-132, 1993.
Parkhomenko, E. I., Electrification phenomena in rocks, Monographs in Geoscience, 285 pp., Plenum Press, New York, 1971.
Qian, F., Y. Zhao, T. Xu, Y. Ming, and H. Zhang, A model of an impending-earthquake precursor of geoelectricity triggered by tidal forces, Physics of the Earth and Planetary Interiors, 65, 284-297, 1990.
Ralchovsky, Tz., and L. Komarov, The Vranchea earthquake of 31.08.1986 and its possible electrical precursors, Bulgarian Academy of sciences, 13, (4), 59-64, 1987.
Raleigh, R., G. Bennet, H. Graig, T. Hangs, P. Molnar, A. Nur, J. Savage, C. Scholz, R. Turner, and F. Wu, Prediction of the Haicheng earthquake, Trans. Am. Geophys. Union, 58, 236-272, 1977.
Rikitake, T., Earthquake Prediction, 387 pp., Elsevier, Amsterdam, 1976a.
Rikitake, T., Crustal dilatancy and geomagnetic variations of short period, J. Geomag. Geoelect., 28, 145-156, 1976b.
Riznichenko, Yu. V., Source dimensions of crustal earthquakes and the seismic moment, pp. 9-27, Nauka, Moscow, 1976.
Sadovsky, M. A., and I. L. Nerssesov, Problems of earthquake prediction, Izv. Akad. Nauk SSSR, Fiz. Zemli (Solid Earth), (9), 13-29, 1978.
Sadovsky, M. A., G. A. Sobolev, and N. N. Migunov, Changes in the natural radio emission in the Carpathians, Dokl. Akad. Nauk SSSR, 244, (2), 318-321, 1979.
Sasai, Y., Application of the elasticity theory of dislocations to tectonomagnetic modeling, Bull. Earthq. Res. Iust., 55, 387-447, 1980.
Sasai, Y., Tectonomagnetic modeling on the basis of linear piezomagnetic theory, Bull. Earthq. Res. Inst., 66, 585-722, 1991.
Schloessin, H. H., Experiments on the electrification and luminescence of minerals and possible origins of EQLS and sferics, Ann. Geophys., 3, (6), 709-720, 1985.
Shapiro, V. A., and K. N. Abdullabekov, Anomalous variations of the geomagnetic field in East Fergana - magnetic precursor of the Alay earthquake with M=7.0 (November 2, 1978), Geophys. J. R. Astron. Soc., 68, 1-5, 1982.
Shapiro, V. A., M. Ju. Muminov, T. Kh. Khadzhyev, and K. N. Abdulabekov, Magnetic field variation of crustal origin measured in the Fergana valley of Uzbekistan, reflecting seismotectonic dynamics, Electromagnetic phenomena related to earthquake prediction, pp. 43-49, TERRAPUB, Tokyo, Japan, 1994.
Shiratori, K., Notes on the destructive earthquake in Sagami Bay on the First of September, 1923, Jap. J. Astron. Geophys., 11, (4), 174-192, 1925.
Skovorodkin, Y. P., L. S. Bezuglaya, and T. V. Guseva, Tectonomagnetic studies in Tadjikistan, J. Geomag. Geoelectr., 30, 481-486, 1978.
Slifkin, A dislocation model for seismic electrical signals, in A critical review of VAN: Earthquake prediction from seismic electric signals, ed. Sir J. Lighthill, pp. 91-96, World Scientific Publishing Co., Singapore, 1996.
Sobolev, G. A., and V. M. Demin, Mechanoelectric phenomena in the Earth, 210 pp., Nauka, Moscow, 1980 (in Russian).
Sobolev, G. A., V. N. Morozov, and N. I. Migunov, Electrotelluric fields and a large earthquake, Izv. AN SSSR, Fizika Zemli, 1, 75-80, 1981.
Sobolev, G. A., V. M. Demin, B. B. Narod, and P. Whaite, Test of piezoelectric and pulsed-radio methods for quartz vein and base-metal sulfides prospecting at Giant Yellowknife Mine, N.W.T., and Sullivan Mine, Kimberly, Canada, Geophysics, 49, 2178-2185, 1984.
Solomatin, V. N., I. N. Vasiliev, and Sh. R. Mastov, Natural pulse electromagnetic emission measurements in Yalta hydro-tunnel, Eng. Geol., 5, 93-98, 1983.
Solomatin, V. N., L. A. Zashinsly, and Sh. R. Mastov, Application of the electromagnetic emission method to the complex study of rock massifs in Crimea, Fundamentals of Goophysical Monitoring in Rocks, pp. 27-31, Novosibirsk, 1983.
Sornette, A., and D. Sornette, Earthquake rupture as a critical point: consequences for telluric precursors, Tectonophysics, 179, 327-334, 1990.
Stacey, F. D., The seismomagnetic effect, Pure Appl. Geophys., 58, (5), 5-22, 1964.
Stacey, F. D., and M. J. S. Johnston, Theory of the piezo-magnetic effect in titanomagnetite-bearing rocks, Pure Appl. Geophys., 97, 146-155, 1972.
Stepanov, A. W., Uber den mechanismus der plastischen deformation, Phys. Z. Soviet Union, 4, 609-627, 1933.
Tate, J., and W. Daily, Evidence of electro-seismic phenomena, Phys. Earth Planet. Interiors, 57, 1-10, 1989.
Terada, T., On luminous phenomena accompanying earthquakes, Bull. Earthquake Res. Inst. Tokyo Univ., 9, 225, 1931.
Thompson, R. R., The Seismic-electric effect, Geophysics, 1, 327-335, 1936.
Thompson, A. H., and G. A. Gist, Geophysical application of electrokinetic conversion, The leading edge, 1169-1173, 1993.
Ulomov, V. I., Light and electrical phenomena during earthquakes, Tashkent earthquake, 26 April 1966, pp. 122-140, FAN, Tashkent, 1971.
Uyeda, S., Introduction to the VAN method of earthquake prediction, in A critical review of VAN: Earthquake prediction from seismic electric signal, pp. 3-28, ed. Sir J. Lighthill, World Scientific Publishing Co., Singapore, 1996.
Uyeda, S., T. Nagao, Y. Orihara, T. Yamaguchi, and I. Takahashi, Geoelectric potential changes: Possible precursors to earthquakes in Japan, Proc. Natl. Acad. Sci. USA, 97, Issue 9, 4561-4566, 2000.
Varotsos, P., and K. Alexopoulos, Physical properties of the variation of the electric field of the earth preceding earthquakes, I, Tectonophysics, 119, 73-98, 1984a.
Varotsos, P., and K. Alexopoulos, Physical properties of the variation of the electric field of the earth preceding earthquakes, II, Tectonophysics, 119, 99-125, 1984b.
Varotsos, P., and K. Alexopoulos, Physical properties of the variations in the electric field of the earth preceding earthquakes, III, Tectonophysics, 136, 335-339, 1987.
Varotsos, P., and K. Alexopoulos, Thermodynamics of point defects and their relation with bulk properties, 474 pp., North Holland, Amsterdam, 1986a.
Varotsos, P., and K. Alexopoulos, Thermodynamics of Point Defects and their Relation with Bulk Properties, edited by S. Amelinckx, R. Gevers and J. Nihoul, North Holland, Amsterdam, 1986b.
Varotsos, P., K. Alexopoulos, and M. Lazaridou, Latest aspects of earthquake prediction in Greece based on seismic electric signals II, Tectonophysics, 24, 1-37, 1993.
Varotsos, P., K. Lazaridou, K. Eftaxias, G. Antonopoulos, J. Makris, and J. Kopanas, Short term earthquake prediction in Greece by seismic electric signals, in A critical review of VAN: Earthquake prediction from seismic electric signals, pp. 29-76, ed. Sir J. Lighthill, World Scientific Publishing Co., Singapore, 1996a.
Varotsos, P., K. Eftaxias, M. Lazaridou, K. Nomicos, N. Sarlis, N. Bogris, J. Makris, G. Antonopoulos, and J. Kopanas, Recent earthquake prediction results based on the observation of seismic electric signals, Acta Geophysica Polonica, XLVI, (4), 301-327, 1996b.
Varotsos, P., N. Sarlis, K. Lazaridou, and P. Kapiris, Transmission of stress induced electric signals in dielectric media, Journal of Applied Physics, 83, (1), 60-70, 1998.
Volarovich, M. P., G. A. Sobolev, and E. I. Parkhomenko, The piezoelectric effect in pegmatite and quartz veins, Izzvestiya Acad. Sci. USSR, Geophysics Series, 145-152, 1962.
Volarovich, M. P., and E. I. Parkhomenko, The piezoelectric effect in rocks, Izv. AN SSSR, ser. Geophys., 3, 37-48, 1955.
Vorobyev, A. A., M. A. Samokhvalov, R. N. Ibragimov, and M. T. Usmanova, Searching for effects due to the existence of local large electric fields in the lithosphere, Seismol. Uzb. Tashkent, FAN, 213-219, 1975.
Vorobyev, A. A., M. A. Samokhvalov, and A. F. Gorelkin, Anomalous electric field variations prior to the earthquakes near Tashkent, Uzbek Geol. J., (2), 37-41, 1976.
Warwick, J. W., C. Stoker, and T. R. Meyer, Radio emission associated with rock fracture: possible application for the Great Chilean Earthquake of May 22, 1960, J. Geophys. Res., 87, (B4), 2851-2859, 1982.
Wolfe, P. J., J. Yu, and N. I. Gershenzon, Seismoelectric studies in an outwash plain, Proc. Symp. on the Appl. of Geophys. to Eng. and Env. Problems, Wheat Ridge, Col., 21-30, 1996.
Yamada, I., K. Masuda, and H. Mizutani, Electromagnetic and acoustic emission associated with rock fracture, Phys. Earth Planetary Interiors, 57, 157-168, 1989.
Yusui, I., Luminous phenomena in connection with the Matsushiro earthquake swarm, Rep. Kakioko Magn. Observ., 4, 52-60, 1968.
Yoshimatsu, T., The measurements of earth-current potentials and its reliability, Mem. Kakioka Magn. Obs. Suppl., 1, 1-29, 1957.
Yoshino, T., and I. Tomizawa, Observation of low-frequency electromagnetic emissions as precursors to the volcanic eruption at Mt. Mihara during November, 1986, Phys. Earth Planetary Interiors, 32, 1989.
Zablocki, C. J., Electrical transients observed during underground nuclear explosions, J. Geophys. Res., 71, (14), 3523-3542, 1966.
Zhurkov, S. N., V. S. Kuksenko, and V. A. Petrov., On prediction of rock failure, Izv. Akad. Nauk SSSR, Fiz. Zemli (Solid Earth), 6, 1977.
Zlotnicki, J., and F. H. C. Cornet, A numerical model of earthquake-induced piezomagnetic anomalies, J. Geophys. Res., 91, 709-718, 1986.
Zlotnicki, J., J. P. Pozzi, and F. H. Cornet, Investigation of induced magnetization variations caused by triaxial stresses, J. Geophys. Res., 86, (B12), 11899-11909, 1981.
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