American Journal of Modern Physics
Volume 4, Issue 6, November 2015, Pages: 281-286
Received: Nov. 17, 2015;
Accepted: Dec. 1, 2015;
Published: Dec. 18, 2015
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Kholmurad Khasanov, Gas and Wave Dynamics Department, M. V. Lomonosov Moscow State University, Moscow, Russia
Firstly there is established unknown early the spatial super-compression of continuous media at the open air atmosphere which is caused by self-organizing criticality and accompanied with electromagnetic radiation of high energy. Also during the spatial super-compression the glowing of the continuous media with high extent of ionization is observed. The presented experiments are a total analysis of the previously works which were discussed in the articles on this theme. The experiments show that energy of HF sound transforms into the energy HF electromagnetic field. This process leads to the spatial super-compression of gas. This phenomenon was researched using the dynamic emitter as during outflowing of gas from it as without it. The experiments were carried out as during supplying of HF electromagnetic field, as without it. But at the both cases the spatial super-compression and glowing of the continuous media were observed. Early at our previously works we discussed super-compression of submerged supersonic jet and its high energy emitting which was registered by standard spectrographs. Characteristics of obtained spectrums attest about the emitting at violet, ultraviolet areas and also X-ray area.
Spatial Super-Compression of the Continuous Media in High-Frequency Fields, American Journal of Modern Physics.
Vol. 4, No. 6,
2015, pp. 281-286.
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Kh. Khasanov, “Visualization of Super-Compressibility in Supersonic Spiral-Twisted Jets”, Physics Letters A, Vol. 376, No. 5, 2012, pp. 748-753.
Kh. Khasanov, “Emission of High Energy during Super-Compressibility of Supersonic Jets”, Open Journal of Fluid Dynamics, 2012, 2, 172-179, pp. 174-175.
Lukyanov S. Y. “Hot plasma and controlled nuclear synthesis”. – M: Science, 1975, p. 359.
Van Marum M 1790 Proc. 4th Int. Conf. on Dense Z-Pinches, Am. Inst. Phys. Woodbury, New York, 1997i.
Pollock J A and Barraclough S, 1905 Proc. R. Soc. New South Wales 39, p. 131.
Artsimovich A. A, “Controlled thermonuclear reactions”. M: “Physmathspub”, 1961, p. 347.
Vladimirov V. V. // Successes of physical sciences. 1975, V. 117, №1, p. 79.
W.H. Bennett // Phys. Rev. 1934, v. 45, p. 890.
P.H. Robert // Astrophys. J. 1956, v. 124, p. 430.
Kh. Khasanov, “Double Spiraled Supersonic Jet,” Fluid Dynamics, Vol. 46, No. 3, 2011, pp. 433-436.
Kh. Khasanov and S. V. Petukhov, “Dynamic Emitter,” PF Patent No. 2058196, 1996.
Kh. Khasanov, “Visualization of super-compressibility in supersonic spiral-twisted jets”, Physics Letters A, 376 (2012) 748–752, p. 751.
Kh. Khasanov, “Super-Compressibility Phenomenon”, Journal of Modern Physics, 2013, 4.
Kh. Khasanov, “Electromagnetic Super–Compressibility”, Material Science & Engineering, J Material Sci Eng Volume 2, Issue 4, 1000131, ISSN: 2169-0022 JME, 2013, pp. 3-4. http://dx.doi.org/10.4172/2169-0022.1000131.
Kh. Khasanov, “Visualization of Bi-Spiral Twisted Supersonic Gas Flow,” The 8th Pacific Symposium of Flow Visualization and Image Processing, Moscow, 2011, p. 51.