Physical effects of the Romanian meteoroid. 2

Рубрика: 
Space and Atmospheric Physics
1Chernogor, LF
1V.N. Karazin National University of Kharkiv, Kharkiv, Ukraine
Space Sci.&Technol. 2018, 24 ;(2):18-35
https://doi.org/10.15407/knit2018.02.018
Язык публикации: Russian
Аннотация: 
We describe various aspects of a comprehensive modeling study of the processes induced in all geospheres the meteoroid passed and exploded over Romania on January 7, 2015.  We estimated turbulence generation, magnetic, electric, electromagnetic, and seismic effects, the effects of acoustic-gravity waves, and ionospheric effects. The passage of the meteoroid has caused the formation of a plasma trail and an appreciable disturbance not only in the lower but also in the upper atmosphere at the distances not less than 1,000 km. The magnitudes of plasma, magnetic, electric, electromagnetic, and acoustic effects were significant. The magnitude of the earthquake caused by the meteoroid explosion did not exceed 1. The mean rate of the fall of cosmic bodies similar to the Romanian meteoroid is equal to 8.4 times a year.
Ключевые слова: gas-dust plume, gas-dynamic and thermal effects, interaction with atmosphere, mechanical, meteoroid, optical
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References: 
 1. Adushkin V. V., Popova O. P., Rybnov Yu. S., Kudryavtsev V. I., Mal’tsev A. L., Kharlamov V. A. Geophysical effects of the Vitim bolide. Doklady Earth Sciences, 397 (6), 861—864 (2004).
2. Alpatov V. V., Burov V. N., Vagin J. P., Galkin K. A., Givishvili G. V., Gluhov J. V., Davidenko D. V., Zubachev D. S., Ivanov V. N., Karhov A. N., Kolomin M. V., Korshunov V. A., Lapshin V. B., Leshenko L. N., Lysenko D. A., Minligareev V. T., Morozova M. A., Perminova E. S., Portnyagin J. I., Rusakov J. S., Stal N. L., Syroeshkin A. V., Tertyshnikov A. V., Tulinov G. F., Chichaeva M. A., Chudnovsky V. S. and Shtyrkov A. Y., 2013. Geophysical conditions at the explosion of the Chelyabinsk (Chebarkulsky) meteoroid in February 15, 2013. (FGBU “IPG” Publ., Moscow, Russia, 2013) [in Russian].
3. Materials and reports of international scientific practical conference “Asteroids and comets. Chelyabinsk event and the study of meteorite falling into the lake Chebarkul”, 21—22 June 2013, Chebarkul, 168 p. (2013) [in Russian].
4. Solar System Research. 47 (4). (Thematical issue) (2013) [in Russian].
5. Atmosphere: A Handbook, 510 p. (Gidrometeoizdat, Leningrad, 1991) [in Russian].
6. Borisov N. D., Gurevich A. V., Milih G. M. Artificially Ionized Region in the Atmosphere, 184 p. (IZMIRAN, Moscow, 1985) [in Russian].
7. Bronshten V. A. Physics of Meteor Phenomena, 358 p. (Springer Netherlands, 1983).
8. Bronshten V. A. A magneto-hydrodynamic mechanism for generating radio waves by bright fireballs. Solar System Research. 17 (2), 70—74 (1983).
9. Bronshten V. A. Electrical and electromagnetic phenomena associated with meteor flight. Solar System Research, 25 (2), 93–104 (1991).
10. Bronshten V. A. Magnetic Effect of the Tungus Meteorite. Geomagnetism and Aeronomy. 42 (6), 854—856 (2002).
11. Brunelli B. E., Namgaladze A. A. Physics of ionosphere, 527 p. (Moscow, Nauka, 1988) [In Russian].
12. Ginzburg V. L. The propagation of electromagnetic waves in plasmas, 684 p. (London, Pergamon Press, 1970).
13. Golitsyn G. S., Grigoriev G. I., Dokuchaev V. P. Radiation of acoustic gravity waves during the motion of meteors in the atmosphere. Izvestiya Rossiyskoy Akademii nauk. Fizika atmosfery i okeana, 1977, 13 (9), 926—936 [In Russian].
14. Goldshtein L. D., Zernov N. V. Electromagnetic fields and waves, 664 p. (Sov. radio, Moscow, 1971) [In Russian].
15. Gorbachev L. P., Bitter V. V., Glushkov A. I., Kotov Yu. B., Krasheninnikov M. V., Lazarev B. M., Levahina L. V., Matronchik A. Yu., Mozgov K. S., Savchenko Yu. N., Semenova T. A., Skryilnik A. A., Fedorov V. F. The generation of the geomagnetic disturbances by non-stationary high-energy sources, 353 p. (MIFI, Moscow, 2001) [In Russian].
16. Gossard E. E., Hooke Y. X., Waves in the Atmosphere: Atmospheric Infrasound and Gravity Waves, Their Generation and Propagation, 532 p. (Developments in Atmospheric Science). Elsevier Scientific Pub. Co., 472 p. (1975).
17. Gohberg M. B., Shalimov S. P. The action of earthquakes and explosions on the ionosphere, 295 p. (Nauka, Moscow, 2008) [In Russian].
18. Gurevich A. V., Shvartsburg A. B. Nonlinear Theory of Radio Wave Propagation in the Ionosphere, 272 p. (Nauka, Moscow, 1973) [In Russian].
19. Adushkin V. V., Nemchinov I. V. (eds). Catastrophic Impacts of Cosmic Bodies. 310 p. (Moscow, Russia: ECC Akademkniga Publ., 2005) [in Russian].
20. Kovaleva I. H., Kovalev A. G., Popel S. I., Popova O. P. The electromagnetic effects generated in the Earth ionosphere during the meteoroid falling. Triggernyie effektyi v geosistemah. Materialy Vserossiyskogo seminara-soveschaniya. Ed.: V. V. Adushkin, G. G. Kocheryan, 41—50. (GEOS, Moscow, 2013) [In Russian].
21. Kovaleva I. H., Kovalev A. G., Popova O. P., et al. The electromagnetic effects generating in the Earth ionosphere during the meteoroid falling. Dinamicheskije processy v geospherah. Vypusk 5. Geophysicheskije effekty padenija Chelyabinskogo meteoroida: sbornik nauchnyh trudov IDG RAN. Special’nyj vypusk, 26—48 (GEOS, Moscow, 2014) [in Russian].
22. Kruchinenko V. G. Mathematical and physical analysis of the meteor phenomena, 294 p. (Kyiv, 2012) [in Ukrainian].
23. Liatskij V. B. The Current Systems of the magnetospheric and ionospheric disturbances, 199 p. (Nauka, Leningrad, 1978) [in Russian].
24. Antipin N. A., ed. The Chelyabinsk Meteorite — one year on the Earth: Proceedings of All-Russian Scientific Conference. Chelyabinsk, Russia: Kamennyi poyas Publ., 694 p. (Chelyabinsk, 2014) [in Russian].
25. Ol’khovatov A. Yu. The electrophone sounds mechanisms generation analysis that accompany bolide effects. Geomagnetism and Aeronomy. 33 (2), 154—155 (1993) [in Russian].
26. Raizer Yu. L. A Debate over the Acquisition of an Electric Potential by a Meteoroid. Solar System Research. 37 (4), 333—335 (2003)
27. Soloviev S. P., Rybnov Yu. S., Kharlamov V. A. The synchronic disturbances of the acoustic and electric fields caused by artificial and natural sources. Triggernyie effektyi v geosistemah. Materialyi tretego Vserossiyskogo seminara-soveschaniya. Pod red. V. V. Adushkina, G. G. Kocheryana, 317—326 (GEOS, Moskva, 2015) [in Russian].
28. Surkov V. V. Electromagnetic effects caused by earthquakes and explosions, 448 p. (MEPhI, Moscow, 2000) [in Russian].
29. Chernogor L. F. Physics of Earth, Atmosphere, and Geospace from the Standpoint of System Paradigm. Radiophyzika i Radioastronomija. 8 (1), 59—106 (2003) [in Russian].
30. Chernogor L. F. Earth–Atmosphere–Ionosphere–Magnetosphere as Opened Dynamic Nonlinear Physical System. 1. Nelinejnyj mir. 4 (12), 655—697 (2006) [in Russian].
31. Chernogor L. F. Earth–Atmosphere–Ionosphere–Magnetosphere as Opened Dynamic Nonlinear Physical System. 2. Nelinejnyj mir. 5 (4), 225—246 (2007) [in Russian].
32. Chernogor L. F. On the Nonlinearity In Nature and Science, 528 p. (Kharkiv V. N. Karazin National University, Kharkiv, 2008) [in Russian].
33. Chernogor L. F. The ways in which variations in space and tropospheric weather impact the biosphere (humans). Phyzyologichnyj journal. 56 (3), 25 — 40 (2010) [in Russian].
34. Chernogor L. F. Oscillations of the Geomagnetic Field Caused by the Flight of Vitim Bolide on September 24, 2002. Geomagnetism and Aeronomy. 51 (1), 116—130 (2011).
35. Chernogor L. F. Physics and Ecology of Catastrophes: monograph, 556 p. (Kharkiv V. N. Karazin National University, Kharkiv, 2012) [in Russian].
36. Chernogor L. F. Large-scale disturbances in the Earth’s magnetic field associated with the Chelyabinsk meteorite event. Radiophizika i electronica. 4 (18) (3), 47—54 (2013) [in Russian].
37. Chernogor L. F. Plasma, electromagnetic and acoustic effects of meteorite «Chelyabinsk». Inzhenernaja physica. 8, 23—40. (2013) [in Russian].
38. Chernogor L. F. The Physical Effects of Chelyabinsk Meteorite Passage. Dopovidi Natsionalnoi akademii nauk Ukraini. 10, 97—104 (2013) [in Russian].
39. Chernogor L. F. Physics of High-Power Radio Emissions in Geospace : Monograph, 448 p. (Kharkiv V. N. Karazin National University, Kharkiv, 2014) [in Russian].
40. Chernogor L. F. Geomagnetic Field Effects of the Chelyabinsk Meteoroid. Geomagnetism and Aeronomy. 54 (5), 613—624 (2014).
41. Chernogor L. F. The physical effects of Romanian meteoroid. 1. Space Science and Technology. 24 (1), 49—70 (2018).
https://doi.org/10.15407/knit2018.01.049
42. Chernogor L. F., Liashchuk O. I. Infrasound observations of the bolide explosion over Romania on January 7, 2015. Kinematics and Physics of Celestial Bodies. 33 (6), 276— 290 (2017).
43. Beech M., Brown P., Jones J. VLF detection of fireballs. Earth Moon Planets. 68, 181—188 (1995).
44. Beech, M., Foschini L. A. A space charge model for electrophonic bursters. Astron. Astrophys. 345, L27—L31 (1999).
45. Borovička J., Spurný P., Grigore V. I., Svoreň J. The January 7, 2015, superbolide over Romania and structural diversity of meter-sized asteroids. Planetary and Space Science. 143, 147—158 (2017).
46. Brown P., Spalding R. E., ReVelle D. O., Tagliaferri E., Worden S. P. The flux of small near-Earth objects colliding with Earth. Nature. 420, 294—296 (2002).
47. Chernogor L. F. The Earth — atmosphere — geospace system: main properties and processes. International Journal of Remote Sensing. 32 (11), 3199—3218 (2011).
48. Chernogor L. F., Rozumenko V. T. Earth — Atmosphere — Geospace as an Open Nonlinear Dynamical System. Radio Physics and Radio Astronomy. 13 (2), 120— 137 (2008).
49. Chernogor L. F., Rozumenko V. T. The physical effects associated with Chelyabinsk meteorite’s passage. Problems of Atomic Science and Technology. 86 (4), 136—139 (2013).
50. Kaznev V. Y. Observational characteristics of electrophonic bolides: Statistical analysis. Sol. Sys. Res. 28, 49— 60 (1994).
51. Keay C. S. L. Anomalous sounds from the entry of meteor fireballs. Science. 210, 11—15 (1980).
52. Keay C. S. L. Audible sounds excited by aurorae and meteor fireballs. J. R. Astron. Soc. Canada. 74. 253—260 (1980).
53. Keay C. S. L. Meteor fireball sounds identified. Asteroids, Comets, Meteors. 297–300, Lunar and Planet. Inst., Houston, Tex., (1991, 1992).
54. Keay C. S. L. Electrophonic sounds from large meteor fireballs. Meteoritics, 27, 144—148 (1992).
55. Keay C. S. L. Electrophonic Sounds Catalog. WGN Obs. Rep. Ser. Int. Meteor. Org. 6, 151—–172 (1994).
56. Keay C. S. L., Ceplecha Z. Rate of observation of electrophonic meteor fireballs. J. Geophys. Res. 99, 13163—13165 (1994).
57. Le Pichon A., Blanc E., Hauchecorne A. Infrasound monitoring for atmospheric studies. 734 p. (Springer Dordrecht Heidelberg London New York, 2010).
58. Popel S. I. Electromagnetic effects in the Earth’s ionosphere and magnetosphere caused by a cosmic body. Planet. Space Sci. 45 (7), 869—875 (1997).
59. Popova O. P., Jenniskens P., Emel’yanenko V., Kartashova A., Biryukov E., Khaibrakhmanov S., Shuvalov V., Rybnov Y., Dudorov A., Grokhovsky V. I., Badyukov D. D., YIN Q. Z., Gural P. S., Albers J., Granvik M., Evers L. G., Kuiper J., Kharlamov V., Solovyov A., Rusakov Y. S., Korotkiy S., Serdyuk I., Korochantsev A. V., Larionov M. Y., Glazachev D, Mayer A. E., Gisler G., Gladkovsky S. V., Wimpenny J., Sanborn M. E., Yamakawa A., Verosub K. L., Rowland D. J., Roeske S., Botto N. W., Friedrich J. M., Zolensky M. E., Le L., Ross D., Ziegler K., Nakamura T., Ahn I., Lee J. I., Zhou Q., Li X. H., Li Q. L., Liu Y., Tang G. Q., Hiroi T., Sears D., Weinstein I. A., Vokhmintsev A. S., Ishchenko A. V., Schmitt-Kopplin P., Hertkorn N., Nagao K., Haba M. K., Komatsu M., Mikouchi T. Chelyabinsk airburst, damage assessment, meteorite recovery, and characterization. Science. 342, 1069—1073 (2013).
60. Popova O. P., Jenniskens P., Emelyanenko V., et al. Supplementary material for Chelyabinsk airburst, damage assessment, meteorite, and characterization. Science. 145 p. (2013).
61. Pricopi D., Dascalu M., Badescu O., et al. Orbit reconstruction for the meteoroid of the meteorite-producting fireball that exploded over Romania on January 7, 2015. Proc. Romanian Academy, Series A. 17 (2), 133—136 (2016).
62. Zalyubovsky I. I., Chernogor L. F., Rozumenko V. T. The Earth — Atmosphere — Geospace System: Main Properties, Processes and Phenomena. Space Research in Ukraine. 2006—2008. Kyiv. 19—29 (2008).