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Non-Local Theory of Lighting Balls and Some Mysterious Catastrophes
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Volume 2, 2015
Issue 1 (February)
Pages: 1-15   |   Vol. 2, No. 1, February 2015   |   Follow on         
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Boris V. Alexeev, Department of Physics, Moscow Lomonosov University of Fine Chemical Technologies, Moscow, Russia.
The theory of lighting balls is constructed in the frame of non-local physics. The lighting balls (or plasmoids) have the character of the stable quantum objects in the self consistent electric field. Particularly these effects can be considered as explanation of the existence of the stable plasmoids, lightning balls and atoms with the separated electronic shell and the positive kernel. The delivered theory demonstrates the great possibilities of the generalized quantum hydrodynamics in investigation of the quantum solitons. The theory leads to solitons as typical formations in the generalized quantum hydrodynamics. The self-consistent theory of plasmoids cannot be constructed in the frame of local physics. The developed theory is applied for explanation of Tunguska event, Gagarin catastrophe and catastrophes of flights MH 370 and AirAsia QZ8501.
Quantum Hydrodynamics, Theory of Plasmoids, Atom Structure, Gagarine Catastrophe, MH 370 Catastrophe, AirAsia Flight QZ8501 Catastrophe
Bell J S, On the Einstein Podolsky Rosen paradox. Physics. V.1, p.195 (1964).
Alekseev В V, Matematicheskaya Kinetika Reagiruyushchikh Gazov (Mathematical Theory of Reacting Gases) (Moscow, Nauka 1982)
Alexeev B V, The generalized Boltzmann equation, generalized hydrodynamic equations and their applications. Phil. Trans. R. Soc. Lond. A 349, 417–443 (1994) (doi:10.1098/rsta.1994.0140)
Alexeev B V, Generalized Boltzmann Physical Kinetics. Elsevier (2004)
Alexeev B V, Unified non – local theory of transport processes. Elsevier (2015)
Alexeev B V, Generalized quantum hydrodynamics and principles of non-local physics. J. Nanoelectron. Optoelectron. 3, 143–158 (2008) (doi:10.1166/jno.2008.207)
Alexeev B V, Application of generalized quantum hydrodynamics in the theory of quantum soliton evolution. J. Nanoelectron. Optoelectron. 3, 316–328 (2008) (doi:10.1166/jno.2008.311
Stenhoff M, Ball Lightning. An Unsolved Problem in Atmospheric Physics. New York: Kluwer/Plenum (1999)
Singer S, The Nature of Ball Lightning; Plenum: New York (1971)
Barry J D, Ball Lightning and Bead Lightning; Plenum: New York, 1980; pp 25−27, 59−60, 180−182.
Kapitza P L, Phys. Blatter, 14, 11 (1958).
Tesla N, Colorado Springs Notes 1899−1900; Marincic, A., Ed.; Nolit: Beograd, Yugoslavia, 1978; pp 368−370.
Egorov A I, Stepanov S I, Journal of Technical Physics, 72, 12 (2002), 104 (In Russian).
Oreshko A G, International Journal Unconventional Electromagnetics and Plasmas (UEP), 3, No.1-2, 77 (2011).
Alexeev B V, To the Non local Theory of Plasmoids. Gagarin Catastrophe Version. Vestnik MITHT, Vol. 8, No. 2 (2013) (in Russian).
Leonov A, D. Scott D, Two Sides of the Moon. New York: Thomas Dunne Books. (2004) p. 218. ISBN 0-312-30865-5. OCLC 56587777.
Микоян C. A., Пушкин A. И., Петров С. В., Титов Г. С., Леонов А. А., Белоцерковский С. М., Майоров А. В., Сигов П. Г., Сосунов А. М. Заключение специалистов о причинах гибели Гагарина и Серёгина, //Гражданская авиация, № 7 (1989).
Kawano S., Int. Journ. Unconventional Electromagnetics and Plasmas (UEP) 3, N. 1-2, 41 (2011)
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