Return to main page, biographical sketch, research interests

List of publications

2006-2009

  1. Surkov, V. V., S. V. Goncharov, Y. Matsudo, and M. Hayakawa (2009), Estimation parameters finding based on observation of sprite-producing lightning power spectra, in press.
  2. Surkov, V. V., and M. Hayakawa (2009), Schumann resonances excitation due to positive cloud-to-ground lightnings, in press.
  3. Surkov, V. V., and M. Hayakawa (2008), Natural electromagnetic ULF noise due to fluctuations of ionospheric currents, Journal of Geophysical Research, Space Physics, 113, A11310, doi:10.1029/2008JA013196.
  4. Surkov, V. V., and M. Hayakawa (2007), ULF electromagnetic noise due to random variations of background atmospheric current and conductivity, Journal of Geophysical Research, Atmospheres, Vol. 112, D11116, doi:10.1029/2006JD007788.
  5. Hayakawa, M., V. V. Surkov, Y. Fukumoto, and N. Yonaiguchi (2007), Characteristics of VHF over-horizon signals possibly related to impending earthquakes and a mechanism of seismo-atmospheric perturbations, Journal of Atmospheric and Solar-Terrestrial Physics, Vol. 69, 1057-1062.
  6. Fedorov, E. N., A. Yu. Schekotov, O. A. Molchanov, M. Hayakawa, V. V. Surkov, and V. A. Gladichev (2006), An energy source for the mid-latitude IAR: World thunderstorm centers, nearby discharges or neutral wind fluctuations? Physics and Chemistry of the Earth, Vol. 31, Issues 4-9, 462-468.
  7. Surkov, V. V., and M. Hayakawa (2006), ULF geomagnetic perturbations due to seismic noise produced by rock fracture and crack formation treated as a stochastic process, Physics and Chemistry of the Earth, Vol. 31, Issues 4-9, 273-280.
  8. Surkov, V. V., O. A. Pokhotelov, M. Parrot, and M. Hayakawa (2006b), On the origin of stable IR anomalies detected by satellite above seismo-active regions, Physics and Chemistry of the Earth, Vol. 31, Issues 4-9, 164-171.
  9. Surkov, V. V., M. Hayakawa, A. Y. Schekotov, E. N. Fedorov, and O. A. Molchanov (2006a), Ionospheric Alfven resonator excitation due to nearby thunderstorms, Journal of Geophysical Research, Space Physics, Vol. 111, A01303, doi:10.1029/2005JA011320.

    10. 2001-2005

  10. Surkov, V. V., and H. Tanaka (2005), Electrokinetic effect in fractal pore media as seismoelectric phenomena, in g&quotFractal Behaviours of the Earth Systemg", edited by V. P. Dimri, 83-96, Springer-Verlag, Berlin, Heidelberg, New York, 2005.
  11. Surkov, V. V., O. A. Pokhotelov, E. N. Fedorov, and O. G. Onishchenko (2005b), Police whistle type excitation of the ionospheric Alfven resonator at middle latitudes, in "Physics of auroral phenomena", Proc. XXVIII Annual Seminar, Apatity, 2005, pp. 108-114.
  12. Surkov, V. V., O. A. Molchanov, M. Hayakawa, and E. N. Fedorov (2005a), Excitation of the resonance cavity by thunderstorms, Journal of Geophysical Research, Space Physics, Space physics, Vol. 110, No. A4, A04308, doi:10.1029/2004JA010850.
  13. Molchanov, O., E. Fedorov, A. Schekotov, E. Gordeev, V. Chebrov, V. Surkov, A. Rozhnoi, S. Andreevsky, D. Iudin, S. Yunga, M. Hayakawa, and P. F. Biagi (2004), Lithosphere-atmosphere-ionosphere coupling as governing mechanism for preseismic short-term events in atmosphere and ionosphere, Natural Hazards and Earth System Sciences, Vol. 4, No. 9, 757-767.
  14. Surkov, V. V., O. A. Molchanov, and M. Hayakawa (2004b), A direction finding technique for the ULF electromagnetic source, Natural Hazards and Earth System Sciences, Vol. 4, No. 9, 513-517. Read the article.
  15. Surkov, V. V., O. A. Pokhotelov, M. Parrot, E. N. Fedorov, and M. Hayakawa (2004a), Excitation of the ionospheric resonance cavity by neutral winds at middle latitudes, Annales Geophysicae, Vol. 22, No. 9, 2877-2889.
  16. Surkov, V. V., O. A. Molchanov, and M. Hayakawa (2003), Pre-earthquake ULF electromagnetic perturbations as a result of inductive seismomagnetic phenomena during microfracturing, Journal of Atmosphere and Solar-Terrestrial Physics, Vol. 65, 31-46.
  17. Surkov, V. V., S. Uyeda, H. Tanaka, and M. Hayakawa (2002b), Fractal Properties of Medium and Seismoelectric Phenomena, Journal of Geodynamics, Vol. 33, 477-487.
  18. Soloviev, S. P., V. V. Surkov, and J. J. Sweeney (2002), Quadrupolar electromagnetic field from detonation of high explosive charges on the ground surface, Journal of Geophysical Research, Solid Earth, Vol. 107, No. B6.
  19. Gladychev, V., L. Baransky, A. Schekotov, E. Fedorov, O. Pokhotelov, S. Andreevsky, A. Rozhnoi, Y. Khabazin, G. Belyaev, A. Gorbatikov, E. Gordeev, V. Chebrov, V. Sinitsin, A. Lutikov, S. Yunga, G. Kosarev, V. Surkov, O. Molchanov, M. Hayakawa, S. Uyeda, T. Nagao, K. Hattori, and Y. Noda (2002), Some preliminary results of seismo-electromagnetic research at Complex Geophysical Observatory, Kamchatka, in "Seismo Electromagnetics: Lithosphere-Atmosphere-Ionosphere Couplingg", Eds. M. Hayakawa and O. A. Molchanov, pp. 421-432. TERRAPUB, Tokyo, 2002.
  20. Uyeda, S., T. Nagao, K. Hattori, Y. Noda, M. Hayakawa, K. Miyaki, O. Molchanov, V. Gladychev, L. Baransky, A. Schekotov, G. Belyaev, E. Fedorov, O. Pokhotelov, S. Andreevsky, A. Rozhnoi, Y. Khabazin, A. Gorbatikov, E. Gordeev, V. Chebrov, A. Lutikov, S. Yunga, G. Kosarev, and V. Surkov (2002), Russian-Japanese complex geophysical observatory in Kamchatka for monitoring of phenomena connected with seismic activity, in "Seismo Electromagnetics: Lithosphere-Atmosphere-Ionosphere Couplingg", Eds. M. Hayakawa and O. A. Molchanov, pp. 413-419, TERRAPUB, Tokyo, 2002.
  21. Surkov, V. V., D. I. Iudin, O. A. Molchanov, N. V. Korovkin, and M. Hayakawa (2002a), Thermofluctuational mechanism of cracks migration as a model of earthquake preparation, in g&quotSeismo Electromagnetics: Lithosphere-Atmosphere-Ionosphere Couplingg", Eds. M. Hayakawa and O. A. Molchanov, pp. 195-201, TERRAPUB, Tokyo, 2002.
  22. Korovkin, N. V., D. I. Iudin, O. A. Molchanov, M. Hayakawa, and V. V. Surkov (2002), Model of earthquake triggering due to gas-fluid "bubble" upward migration. II. Finite-automation model, in g&quotSeismo Electromagnetics: Lithosphere-Atmosphere-Ionosphere Couplingg", Eds. M. Hayakawa and O. A. Molchanov, pp. 187-194, TERRAPUB, Tokyo, 2002.
  23. Iudin, D. I., N. V. Korovkin, O. A. Molchanov, V. V. Surkov, and M. Hayakawa (2002), Model of earthquake triggering due to gas-fluid "bubble" upward migration. I. Physical rationale, in "Seismo Electromagnetics: Lithosphere-Atmosphere-Ionosphere Coupling", Eds. M. Hayakawa and O. A. Molchanov, pp. 177-185, TERRAPUB, Tokyo, 2002.
  24. Gladychev, V., L. Baransky, A. Schekotov, E. Fedorov, O. Pokhotelov, S. Andreevsky, A. Rozhnoi, Y. Khabazin, G. Belyaev, A. Gorbatikov, E. Gordeev, V. Chebrov, V. Sinitsin, A. Lutikov, S. Yunga, G. Kosarev, V. Surkov, O. Molchanov, M. Hayakawa, Uyeda, S., T. Nagao, K. Hattori, and Y. Noda (2001), Study of electromagnetic and acoustic emissions associated with seismic activity in Kamchatka region, Natural Hazards Earth System Sciences, No. 1, 127-136.
  25. Uyeda, S., T. Nagao, K. Hattori, M. Hayakawa, M. Miyaki, O. Molchanov, V. Gladychev, L. Baransky, A. Schekotov, E. Fedorov, O. Pokhotelov, S. Andreevsky, A. Rozhnoi, Y. Khabazin, A. Gorbatikov, E. Gordeev, V. Chebrov, V. Sinitsin, A. Lutikov, S. Yunga, G. Kosarev, V. Surkov, and G. Belyaev (2001), Geophysical Observatory in Kamchatka region for monitoring of phenomena connected with seismic activity, Natural Hazards Earth System Sciences, No. 1, 3-7.
  26. Surkov, V. V. (2001), The role of shear cracks in the formation of electromagnetic noise preceding some earthquakes, Doklady Earth Sciences, Vol. 377A, No. 3, 349-355. (Translated from Doklady Akademii Nauk. Russian Academy of Science).

    27. 1996-2000

  27. Surkov, V. V. (2000b), Electromagnetic effects caused by earthquakes and explosions, Moscow, MEPhI, 2000, 448 pp. (in Russian).
  28. Surkov, V. V. (2000a), On the nature of the ULF electromagnetic emission preceding some earthquakes, Izvestiya, Physics of the Solid Earth, Vol. 36, No. 12, 1040-1045.
  29. Surkov, V. V., and Yu. I. Galperin (2000), Electromagnetic impulse in magnetosphere resulted from impulse of electric current near lower boundary of ionosphere, Cosmic Investigation, Vol. 38, No. 6, 602-613. Read abstract.
  30. Soloviev, S. P., and V. V. Surkov (2000), Electrostatic field and lightnings arising into gas-dust cloud of explosion products, Geomagnetism and Aeronomy, Vol. 40, No. 1, 68-76.
  31. Soloviev, S. P., A. A. Spivak, and V. V. Surkov (1999), Electromagnetic field resulted from polarization of rock under chemical explosion, in "Physical processes in geospheres: their manifestation and interaction", Moscow, Institute of Geospheres Dynamics of Russian Academy of Sciences, 1999, pp. 152-158 (in Russian).
  32. Surkov V. V. (1999), ULF electromagnetic perturbations resulting from the fracture and dilatancy in the earthquake preparation zone, in "Atmospheric and Ionospheric Phenomena Associated with Earthquakesg", pp. 357-370. Ed. by M. Hayakawa, Terra Scientific Publishing Company (TERRAPUB), Tokyo, 1999, 996 pp.
  33. Surkov, V. V., and V. A. Pilipenko (1999), The physics of pre-seismic electromagnetic ULF signals, in "Atmospheric and Ionospheric Phenomena Associated with Earthquakes", pp. 357-370. Ed. by M. Hayakawa, Terra Scientific Publishing Company (TERRAPUB), Tokyo, 1999, 996 pp.
  34. Fedorov, E., V. Pilipenko, V. Surkov, D. R. K. Rao, and K. Yumoto (1999), Ionospheric propagation of magnetohydrodynamic disturbances from the equatorial electrojet, Journal of Geophysical Research, Space Physics, Vol. 104, No. A3, 4329-4336.
  35. Surkov, V. V. (1997b), The electromagnetic precursor of a seismic wave, Geomagnetism and Aeronomy, Vol. 37, No. 6, 792-796.
  36. Surkov, V. V., E. N. Fedorov, V. A. Pilipenko, and D. R. I. Rao (1997), Ionospheric propagation of geomagnetic perturbations caused by equatorial electrojet, Geomagnetism and Aeronomy, Vol. 37, No. 2, 61-70.
  37. Surkov, V. V. (1997a), The nature of electromagnetic forerunners of earthquakes, Transactions (Doklady) of the Russian Academy of Sciences. Earth Science Sections, Vol. 355, No. 6, 945-947.
  38. Surkov, V. V., and V. A. Pilipenko (1997), Magnetic effects due to earthquakes and explosions: a review, Annali di Geofisica, Vol. 40, No. 2, 227-240.
  39. Surkov, V. V. (1996), Front structure of the Alfven wave radiated into the magnetosphere due to excitation of the ionospheric E layer, Journal of Geophysical Research, Space Physics, Vol. 101, No. A7, 15403-15409.
  40. Fedorov, E., V. Surkov, and V. Pilipenko (1996), Propagation of MHD disturbances along the ionosphere, in Proceedings of the XIX annual seminar &quotPhysics of auroral phenomenag", Apatity, 1996, pp. 50-52.

    41. 1991-1995

  41. Adushkin, V. V., V. A. Dubinya, V. A. Karaseva, S. P. Soloviev, and V. V. Surkov (1995), Generation of low-frequency electric and magnetic fields of large-scale chemical and nuclear explosions: Lawrence Livermore National Laboratory report UCRL-CR-121207, Livermore, CA, 1995.
  42. Pokhotelov, O., M. Parrot, E. Fedorov, V. Pilipenko, V. Surkov, and V. Gladychev (1995b), Acoustic response of the ionosphere to natural and man-made sources, in "Earthquakes induced by underground nuclear explosions (environmental and ecological problems)", pp. 267-279, Ed. by R. Console and A. Nikolaev, NATO ASI series 2/4, Springer, 1995, 454 pp.
  43. Pokhotelov, O., M. Parrot, E. Fedorov, V. Pilipenko, V. Surkov, and V. Gladychev (1995a), Response of the ionosphere to natural and man-made sources, Annales Geophysicae, Vol. 13, 1197-1210. Read abstract.
  44. Dunin, S. Z., A. P. Popryadukhin, and V. V. Surkov (1994), A technique of control over perforation process, Patent of Russia, No. 2007558 on June 10, 1991, Bulletin of inventions and discoveries, No. 3 (in Russia).
  45. Soloviev, S. P., and V. V. Surkov (1994), Electric perturbations in the atmospheric surface layer caused by an aerial shock wave, Combustion Explosion and Shock Waves, Vol. 30, Iss. 1, 117-121.
  46. Juchenko, S. V., N. S. Rostovsky, and V. V. Surkov (1993), Arrangement for destruction of dielectric and semiconductive solid, Patent of Russia, No. 2003802 on June 05, 1992, Bulletin of inventions and discoveries, No. 43-44 (in Russian).
  47. Surkov V. V. (1992c), Electromagnetic effects caused by shock influence on nonuniform medium, Abstract of doctoral thesis, Moscow, Institute of Geospheres Dynamics of Russian Academy of Sciences, 32 pp. (in Russian).
  48. Surkov, V. V. (1992b), Dispersion equations of low-frequency geomagnetic disturbances in the E-layer, Radiophysics and Quantum Electronics, Vol. 35, No 9-10, 477-486.
  49. Surkov, V. V. (1992a), Excitation of low-frequency geomagnetic oscillations upon the propagation of a vertical acoustic wave in the E layer of the ionosphere, Geomagnetism and Aeronomy, Vol. 32, No. 3, 332-336.
  50. Dunin, S. Z., and V. V. Surkov (1992), Perturbation of an external magnetic field by a Rayleigh wave propagating through a conducting elastic dissipative half space, Magnetohydrodynamics, Vol. 28, No. 2, 105-111.
  51. Dunin, S. Z., A. P. Popryadukhin, V. I. Selyakov, and V. V. Surkov (1992), A technique for detection of explosions, Patent of Russia, No. 1784834 on May 24, 1990, Bulletin of inventions and discoveries, No. 48 (in Russian).
  52. Surkov, V. V. (1991), Electric field buildup in pore collapse, Journal Applied Mechanics and Technical Physics, Vol. 32, No. 4, 481-484.

    53. 1986-1990

  53. Brovkin, Yu. V., S. Z. Dunin, A. P. Popryadukhin, V. V. Surkov, and I. N. Tochkin (1990), Recording of the number of explosions by electromagnetic methods, Journal of Mining Science, Vol. 26, No. 6, 522-526.
  54. Surkov, V. V. (1990c), Propagation characteristics of low-frequency electromagnetic signals due to disturbances in the E layer, Geomagnetism and Aeronomy, Vol. 30, No. 5, 682-686.
  55. Adushkin, V. V., S. P. Soloviev, and V. V. Surkov (1990), Electrical field arising during ejection explosion, Combustion Explosion and Shock Waves, Vol. 26, Iss. 4, 478-482.
  56. Surkov, V. V. (1990b), Electromagnetic effects caused by shock influence on nonuniform solid, Preprint of MEPhI 018-90, Moscow, MEPhI, 20 pp. (in Russian).
  57. Surkov, V. V. (1990a), The propagation of geomagnetic pulsations in the E layer of the ionosphere, Geomagnetism and Aeronomy, Vol. 30, No. 1, 94-98.
  58. Surkov, V. V. (1989d), Geomagnetic perturbations in a stratified medium, caused by propagation of a longitudinal spherical wave, Journal Applied Mechanics and Technical Physics, Vol. 30, No. 5, 687-696.
  59. Surkov, V. V. (1989c), Perturbation of an external magnetic field by a longitudinal acoustic wave, Magnetohydrodynamics, Vol. 25, No. 2, 145-148.
  60. Surkov, V. V. (1989b), Excitation of low-frequency electromagnetic perturbations of the ionosphere by acoustic waves, Preprint of MEPhI 041-89, Moscow, MEPhI, 24 pp. (in Russian).
  61. Surkov, V. V. (1989a), Local variations of geomagnetic and geoelectric fields caused by near-surface deformations, Izvestiya. Academy of Sciences. USSR. Physics of the Solid Earth, Vol. 25, No. 5, 421-424.
  62. Ablyazov, M. K., V. V. Surkov, and A. S. Chernov (1988), Distortion of an external magnetic field by an expanding plasma sphere located in a slightly conductive semispace, Journal Applied Mechanics and Technical Physics, Vol. 29, No. 6, 778-784.
  63. Gorbachev, L. P., and V. V. Surkov (1987), Perturbation of an external magnetic field by a Rayleigh surface wave, Magnetohydrodynamics, Vol. 23, 117-125.
  64. Sirotkin, V. K., and V. V. Surkov (1986), Mechanism of space charge generation in shock compression of ionic crystals, Journal Applied Mechanics and Technical Physics, Vol. 27, No. 4, 495-500.
  65. Surkov, V. V. (1986b), Emission of electrons during fracture of crystal dielectric, Journal of Technical physics, Vol. 56, No. 9, 1818-1820.
  66. Surkov, V. V. (1986a), Electromagnetic field produced by a shock wave propagating in a condensed medium, Journal Applied Mechanics and Technical Physics, Vol. 27, No. 1, 25-31.

    67. 1981-1985

  67. Dunin, S. Z., O. V. Nagornov, and V. V. Surkov (1985), Nondissipative attenuation of acoustic waves in saturated pore mediums, in "Theory of explosion physics", Moscow, Energoatomizdat, pp. 29-35 (in Russian).
  68. Surkov, V. V. (1985), Electromagnetic perturbations caused by underground explosion, in "Theory of explosion physicsg", Moscow, Energoatomizdat, pp. 12-29 (in Russian).
  69. Surkov, V. V. (1984), Nonlinear interaction between longitudinal and transverse waves in heterogeneous medium, Mechanics of Solids, Vol. 19, No. 6, 94-98.
  70. Dunin, S. Z., and V. V. Surkov (1982), Effects of energy dissipation and melting on a shock compression of porous bodies, Journal Applied Mechanics and Technical Physics, Vol. 23, No. 1, 123-134.
  71. Grygoriev, V. G., S. Z. Dunin, and V. V. Surkov (1981), Collapse of a spherical cavity in viscoplastic material, Mechanics of Solids, Vol. 16, No. 1, 184-187.

    72. 1978-1980

  72. Dunin, S. Z., and V. V. Surkov (1980), Nonlinear elastic waves in multi-component mediums, Acoustical Journal, Vol. 26, No. 5, 700-707.
  73. Surkov, V. V. (1980), Theory of dynamic loading of micro-nonuniform condensed mediums, Abstract of Ph.D. thesis, MEPhI, 15 pp. (in Russian).
  74. Dunin, S. Z., and V. V. Surkov (1979b), Structure of a shock wave front in a porous solid, Journal Applied Mechanics and Technical Physics, Vol. 20, No. 5, 612-618.
  75. Dunin, S. Z., and V. V. Surkov (1979a), Dynamics of pore closing at shock front, Applied mathematics and mechanics, Vol. 43, No. 3, 511-518.
  76. Dunin, S. Z., and V. V. Surkov (1978), Equation of state of gas- or water-saturated media, Izvestiya. Academy of Sciences. USSR. Physics of the Solid Earth, Vol. 14, No. 11, 809-813.
  77. Dunin, S. Z., V. K. Sirotkin, and V. V. Surkov (1978), On propagation of plastic waves in porous bodies, Mechanics of Solids, Vol. 13, No. 3, 87-92.
  78. Bartenew, G. M., W. W. Surkow, and B. M. Tulinow (1978), Theorie der Kinetik des quasisproden Brachs von Polimeren, Plaste und Kautschuk, Bd. 25, No. 4, 197-201.
  79. Tulinov, B. M., and V. V. Surkov (1978), Kinetic theory of quasibrittle fracture in polymeric glasses, Soviet Materials Science, Vol. 14, No. 2, 154-159.

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