Self-electric field of the electron-photon shower excess charge and the technique for its detection at long distances

Heading: 
Space and Atmospheric Physics
1Zalyubovsky, II, 1Kartashev, VM, 1Kovtun, VE, 1Lebedev, AV, 1Minko, OK, 1Shmatko, ES
1V.N. Karazin National University of Kharkiv, Kharkiv, Ukraine
Kosm. nauka tehnol. 2005, 11 ;(3-4):038-047
https://doi.org/10.15407/knit2005.03.038
Publication Language: Russian
Abstract: 
The paper presents a brief topical survey on scientific researches carried out in cosmic ray physics since the 1960s at the V. N. Karazin Kharkiv National University. Based on a technique ol mathematical simulation, we solved the problem on the generation of an electric field pulse in the point of an observation using an excess negative charge moving uniformly and relativistically in the electron-photon shower developed in the air or halite. The process of electric field detection with some detectors is simulated. It is illustrated that the self-electric field of the electron-photon shower of super-high energy can serve as an alternative object to be detected in a real experiment.
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References: 
1. Abrosimov A. T., Gusev A. A., Dudnik A. V. The dynamics of trapped particles and sporadic radio emission after the November 20, 1986 flare. Izv. AN SSSR. Ser. fiz., 55 (10), 1915—1919 (1991) [in Russian].
2. Askar'yan G. A. Excess Negative Charge of an Electron-Photon Shower and its Coherent Radio Emission. Zhurn. jeksperim. i teor. fiz., 41 (2), 616— 618 (1961) [in Russian].
3. Askar'yan G. A. Coherent Radio Emission from Cosmic Showers in Air and in Dense Media. Zhurn. jeksperim. i teor. fiz., 48 (3), 988—990 (1965) [in Russian].
4. Borzhkovskii I. A., Volovik V. D., Kobizskoy V. I., Shmatko E. S. Measurement of the Polarization of Coherent Radio Emission of Extensive Air Showers (EAS). Pis'ma v Zhurn. jeksperim. i teor. fiz., 3, 186 (1966) [in Russian].
5. Borzhkovskii I. A., Volovik V. D., Shmatko E. S. Measurement of coherent radio emission of extensive air showers. Izv. AN SSSR. Ser. fiz., 30 (10), 1705 (1966) [in Russian].
6. Vernov S. N., Khristiansen G. B., Zalyubovsky I. I., et al. Observation of radio emission from Extensive Air Showers. Izv. AN SSSR. Ser. fiz., 32, 467—469 (1968) [in Russian].
7. Vlasenko V. P., Zalyubovskii I. I., Kartashev V. M., et al. Prospects for ground-based studies of solar-terrestrial connections. Kosm. nauka tehnol. 8 (Suppl. 2), 7—19 (2002) [in Russian].
8. Volovik V. D., Zalyubovsky I. I., Ivanov A. D., et al. Facility for the study of horizontal air showers. First results. Izv. AN SSSR. Ser. fiz., 37 (7), 1421 —1426 (1973) [in Russian].
9. Volovik V. D., Zaliubovskii I. I., Kartashev V. M. Energy spectrum of muons in air showers at large zenith angles. Pis'ma v Zhurn. jeksperim. i teor. fiz., 24 (7), 443—446 (1976) [in Russian].
10. Volovik V. D., Zalyubovsky I. I., Kaminsky A. T., Kartashev V. M. Extended Device for Recording Horizontal Atmospheric Showers. Pribory i tehnika jeksperimenta, No. 2, 45—48 (1977) [in Russian].
11. Volovik V. D., Zalyubovsky I. I., Levchenko, V. N., et al. Spectral distribution of radio-frequency radiation of wide air-showers. Izv. AN SSSR. Ser. fiz., 38 (5), 1013—1016 (1974) [in Russian].
12. Volovik V. D., Zalyubovskij I. I., Shmatko E. S. Specific features of spectral distribution of radio-frequency radiation of extensive air showers. Izv. AN SSSR. Ser. fiz., 40 (5), 1026—1032 (1976) [in Russian].
13. Greisen K. The extensive air showers. In: Wilson J. G. (Ed.) Cosmic Ray Physics, Vol. 3, 7—141 (Izd-vo inostr. lit., Moscow, 1958) [in Russian].
14. Dolukhanov M. P. Propagation of Radio Waves, 400 p. (Svjaz', Moscow, 1965) [in Russian].
15. Dudnik A. V., Zalyubovskij I. I., Kartashev V. M., et al. High-speed solar wind flux detected in middle latitudes on 1-3 April, 1985 according to near-Earth sporadic radiowave radiation. Izv. AN SSSR. Ser. fiz., 52 (12), 2457—2459 (1988) [in Russian].
16. Dudnik A. V., Kartashev V. M., Lazarev A. V. Sporadic radiobursts as manifestation of solar activity in the near-Earth cosmic space. Izv. AN SSSR. Ser. fiz., 51 (10), 1839— 1841 (1987) [in Russian].
17. Dudnik A. V., Kartashev V. M., Lazarev A. V., Shmatko E. S. Diurnal variations of the sporadic radio emission of the near-earth space at midlatitudes. Geomagnetizm i Aeronomiia, 28 (5), 733—737 (1988) [in Russian].
18. Dudnik A. V., Kartashev V. M., Lazarev A. V., et al. . On the mechanism of near-Earth sporadic radio emission caused by cosmic rays of solar isolated flares. In: Problemy jadernoj fiziki i kosmicheskih luchej, Is. 31, 9—13 (1989) [in Russian].
19. Dudnik A. V., Kartashev V. M., Lazarev A. V., Shmatko E. S. Near-earth sporadic radio emission caused by cosmic rays from isolated solar flares. Geomagnetizm i Aeronomiia, 30 (1), 132—134 (1990) [in Russian].
20. Dyakonov M. N., Egorov T. A., Efimov N. N., et al. Cosmic Rays of Extremely High Energy, 251 p. (Nauka, Novosibirsk, 1991) [in Russian].
21. Zalyubovsky I. I., Kartashev V. M., Kovtun V. E., et al. Magnetoinductive Effect of Electron-Photon Showers Developing in Large Thickness Ice. Radio Physics and Radio Astronomy, 7 (3), 254—264 (2002) [in Russian].
22. Zalyubovsky I. I., Kartashev V. M., Kovtun V. E., et al. Bursts of fast neutron flows on the earth’s surface as the completion of the process of energetic proton scattering from the captured radiation zones. Kosm. nauka tehnol., 9 (5-6), 106—110 (2003) [in Russian].
23. Zalyubovsky I. I., Kartashev V. M., Kovtun V. E., et al. A new method for detecting electron-photon drains developing in natural condensed dielectric media. In: Karazin’s Natural Science Studios: Proc. Intern. sci. conf., June 14—16, 2004, Kharkiv, 49 (Section 1. «Physics and Astronomy». Subsection «Applied Physics») (V.N. Karazin Kharkiv National University, Kharkiv, 2004) [in Ukrainian].
24. Zalyubovskij I. I., Kartashev V. M., Shmatko E. S. Device for investigation of sporadic radiowave radiation of the Earth ionosphere. Izv. AN SSSR. Ser. fiz., 46 (9), 1749—1751 (1982) [in Russian].
25. Zdesenko Yu. G., Kropivyanskii B. N., Kuts V. N., et al. Study of the backgrounds of scintillation and semiconductor detectors in the underground low-background laboratory of the Institute of Nuclear Physics of the Academy of Sciences of the Ukrainian SSR: Preprint KIJaI 85—28. (Kiev, 1985) [in Russian].
26. Kartashev V. M., Kovtun V. E., Shmatko E. S. Magnetoinductive Method for Detection of Extensive Air Showers of Ultimate High Energies. Radio Physics and Radio Astronomy, 4 (1), 61—68 (1999) [in Russian].
27. Kartashev V. M., Lazarev A. V., Soroka D. V., Shmatko E. S. Synchrotron Radio Emission Bursts of Electrons Precipitating from Earth's Inner Radiation Belt. Radio Physics and Radio Astronomy, 2 (2), 165—174 (1997) [in Russian].
28. Kartashev V. M., Shmatko E. S. Method of Observation of Cosmic Very High Energy g-Quants by Means of Registration of Impulses of Extensive Air Showers Coherent Radio Emission. Radio Physics and Radio Astronomy, 2 (2), 152—164 (1997) [in Russian].
29. Kartashev V. M., Shmatko E. S. Radioholographic Method of Determining of Nuclear Composition of High Energy Primary Cosmic Particles. Radio Physics and Radio Astronomy, 3 (3), 299—311 (1998) [in Russian].
30. Landau L. D., Lifshitz E. M. Field Theory, 510 p. (Nauka, Moscow, 1988) [in Russian].
31. Filonenko A. D. Radio-emission of cascade showers and detecting of cosmic rays of ultrahigh energy, 280 p. (V. Dahl East Ukrainian National University, Luhansk, 2002) [in Russian].
32. Borshkovskiy I. A., Volovik V. D., Zalyubovskiy I. I., et al. On the pulse shape of the radio emission of extensive air showers. Acta phys. hang, 29 (3), 757—761 (1970).
33. Dudnik A. V., Zalyubovskiy I. I., Kartashev V. M., et al. Sporadic radio emission connected with a definite manifestation of Solar activity in the near Earth space. In: Proc. Int. Conf. Cosmic Rays, La Jolla, 5, 538—541 (1985).
34. Dudnik A. V., Zalyubovskiy I. I., Kartashev V. M., et al. Near Earth space sporadic radio emission burst occurring during sunrise. In: Proc. Int. Conf. Cosmic Rays, La Jolla, 5, 542—547 (1985).
35. Kartashev V. M., Kovtun V. E., Minko O. K., et al. Possibility to detect cosmic particles and neutrino of super-high energies in atmospheric air and condensed media using magnetoinductive method. The Journal of Kharkiv University, No. 628, Physical series: Nuclei, Particles, Fields, is. 2 (24), 23—34 (2004).
36. Ruthroff C. L. Some broad band transformers. Proc. IRE, 47, 1337—1342 (1959).
https://doi.org/10.1109/JRPROC.1959.287200
37. Vernov S. N., Khristiansen G. B., Abrosimov A. T., et al. Detection of radio emission from extensive air showers with a system of single half-wave dipoles. Can. J. Phys., 46 S, 241—242 (1968).