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  • Arora, B. R., and C. D. Reddy, Deep conduction structures of frontal belt of the Garahwal Himalaya and their seismotectonic significance, in Uttarkashi Earthquake, mem. 30, edited by H. K. Gupta, and G. D. Gupta, pp. 109124, Geol. Soc. India, Bangalore, 1995.
  • Cress, G. O., B. T. Breddy, and G. A. Rowell, Sources of electromagnetic radiation from fracture of rock samples in the laboratory, Geophys. Res. Lett., 14, 331335, 1987.
  • Fujinawa, Y., and K. Takahashi, Emissions of electromagnetic radiations preceding to Ito seismic swarm of 1989, Nature, 347, 376378, 1990.
  • Gokhberg, M. B., V. A. Morgunov, T. Yoshino, and I. Tomijawa, Experimental measurement of electromagnetic emissions possibly related to earthquakes in Japan, J. Geophys. Res., 87, 78247828, 1982.
  • Gokhberg, M. B., N. I. Gershenzon, I. L. Gufel'd, A. V. Kustov, V. A. Liperovskiy, and S. S. Khusameddimov, Possible effects of the action of electric fields of seismic origin of the ionosphere, Geomagn. Aeron., 24, 217222, 1984.
  • Hayakawa, M., Electromagnetic precursors of earthquakes: Review of recent activities, in Review of Radio Science, edited by W. Ross Stone, pp. 807815, Oxford Sci., Oxford, England, 1996.
  • Hayakawa, M., Atmospheric and Ionospheric Phenomenon Associated With Earthquakes, Terra Sci., Tokyo, 1999.
  • Hayakawa, M., and Y. Fujinawa, Electromagnetic Phenomenon Related to Earthquake Prediction, Terra Sci., Tokyo, 1994.
  • Hayakawa, M., and O. A. Molchanov, Lithosphere-Atmosphere-Ionosphere Coupling, Terra Sci., Tokyo, 2002.
  • Hayakawa, M., O. A. Molchanov, T. Ondoh, and E. Kawai, Precursory signature of the Kobe earthquake on VLF subionospheric signal, J. Atmos. Electr., 16, 247257, 1996.
  • Keller, G. V., Practical Handbook of Physical Properties of Rocks and Minerals, 361 pp., John Wiley, Hoboken, N. J., 1989.
  • Kingsley, S. P., On the possibilities for detecting radio emissions from earthquakes, Nuova Cimento, 12, 117, 1989.
  • Larkina, V. I., A. V. Nalivayko, N. I. Gershenzon, M. B. Gokhberg, V. A. Liperovskiy, and S. L. Shalimov, Observation of VLF emission related with seismic activity on the Intercosmos-19 satellite, Geomagn. Aeron., 23, 684687, 1983.
  • Molchanov, O. A., O. A. Mazhaera, A. N. Golyavin, and M. Hayakawa, Observation by the Intercosmos-24 satellite of ELF-VLF electromagnetic emissions associated with earthquakes, Ann. Geophys., 11, 431440, 1993.
  • Molchanov, O. A., M. Hayakawa, and V. A. Rafalsky, Penetration characteristics of electromagnetic emissions from an underground seismic source into the atmosphere, ionosphere, and magnetosphere, J. Geophys. Res., 100, 16911712, 1995.
  • Molchanov, O. A., M. Hayakawa, T. Ondoh, and E. Kawai, Precursory effects on sub-ionospheric VLF signals for the Kobe earthquake, Phys. Earth Plant. Inter., 105, 239248, 1998.
  • Nitsan, U., Electromagnetic emissions accompanying fracturing of quartz bearing rocks, Geophys. Res. Lett., 4, 333337, 1977.
  • Oike, K., and T. Ogawa, Electromagnetic radiation from shallow earthquakes observed in the LF range, J. Geomagn. Geoelectr., 38, 10311040, 1986.
  • Parrot, M., Electromagnetic noise due to earthquake, in Handbook of Atmospheric Electrodynamics, vol. 2, edited by H. Volland, pp. 95116, CRC Press, Boca Raton, Fla., 1995.
  • Parrot, M., and M. M. Mogilevsky, VLF emissions associated with earthquakes and observed in the ionosphere and magnetosphere, Phys. Earth Planet. Inter., 57, 8699, 1989.
  • Rikitake, T., and Y. Yamazaki, Small earth strains as detected by electric resistivity measurements, Proc. Jpn. Acad., 43, 447482, 1967.
  • Schloessin, H. H., Experiments on the electrification and luminescence of minerals and possible origins of EQLs and sferics, Ann. Geophys., 3, 709, 1985.
  • Singh, R. P., B. Singh, V. Bansal, and M. Hayakawa, VLF electromagnetic noise bursts related to major seismic activities observed at Agra, J. Atmos. Electr., 20, 720, 2000.
  • Sumitomo, N., What kind of electromagnetic phenomena originating in the earth's crust are observable at the earth's surface? in Electromagnetic Phenomenon Related to Earthquake Prediction, edited by M. Hayakawa, and Y. Fujinawa, pp. 511521, Terra Sci., Tokyo, 1994.
  • Tsarev, V. A., and H. Sasaki, Low frequency seismogenic electromagnetic radiation: How does it propagate in earth's crust and where it can be detected? in Atmospheric and Ionospheric Phenomenon Associated With Earthquakes, pp. 383393, Terra Sci., Tokyo, 1999.
  • Warwick, J. W., C. Stocker, and T. R. Meyer, Radio emissions associated with rock fracture: Possible application to the great Chilean earthquake of May 22, 1960, J. Geophys. Res., 87, 28512859, 1982.
  • Yamada, I., K. Masuda, and H. Mizutani, Electromagnetic and acoustic emissions associated with rock fracture, Phys. Earth Planet. Inter., 57, 157168, 1989.
  • Yoshino, T., and I. Tomizawa, LF seismogenic emissions and its application on earthquake prediction, Tech Rep. EMCJ, pp. 6488, Inst. of Electron., Inf., and Commun. Eng., Tokyo, 1988.
  • Yoshino, T., I. Tomizawa, and T. Sugimoto, Result of statistical analysis of LF seismogenic emissions as precursors to the earthquake and volcanic eruptions, Res. Lett. Atmos. Electr., 12, 203210, 1992.