The interaction of acousnic and electromagnetic fields in a mixture of electrolytes

Authors

  • L. M. Kuzmina Department of hydroacoustics of the Institute of Geophysics, National Academy of Sciences of Ukraine, Odessa, Ukraine
  • V. M. Rylyuk Department of hydroacoustics of the Institute of Geophysics, National Academy of Sciences of Ukraine, Odessa, Ukraine
  • M. I. Skipa Department of hydroacoustics of the Institute of Geophysics, National Academy of Sciences of Ukraine, Odessa, Ukraine

DOI:

https://doi.org/10.24028/gzh.0203-3100.v38i2.2016.107769

Keywords:

acoustic and electromagnetic fields, sound wave, resonant frequencies, nonlinear interaction

Abstract

Nonlinear mechanism of interaction of acoustic and electromagnetic fields is considered. It is shown that the sound wave propagating in a mixture solution of electrolytes is able to induce an alternating electromagnetic fields of the acoustic range and presence of an external source of electromagnetic radiation in the region of the sound wave propagation leads to the appearance an additional acoustic harmonics. The strength of the induced magnetic field and the magnitude of sound pressure of harmonics are calculated. The conditions of the magnetic acoustic resonance, which leads to the appearance of the constant magnetic field and the sound pressure of additional acoustic harmonics, are considered.

References

Yershov S., Mikhaylovskaya I., Novik O., 1010. Seismic-electromagnetic Signals over the Ocean from the Upper Mantle to the Ionosphere (Physics, mathematical model, numerical study). http://www.iki.rssi.ru/galeev/abs_rus/a021003.htm (in Russian).

Kontorovich V. M., Glutsyuk A. M., 1962. Transformation of Sound and Electromagnetic Waves at the Boundary of a Magnetic Field. JETP 14, 852—858 (in Russian).

Landau L. D., Lifshits E. M., 1973. Theory of Fields. Vol. II. Moscow: Nauka, 502 p. (in Russian).

Landau L. D., Lifshits E. M., 1982. Electrodynamics of Continuous Media. Vol. VIII. Moscow: Nauka, 620 p. (in Russian).

Semkin S. V., Smagin V. P., Savchenko V. N., 2008a. Interaction between the Electromagnetic and Acoustic Fields in the Marine Environment. Geomagnetizm i aeronomiya 48(6), 829—830 (in Russian).

Semkin S. V., Smagin V. P., Savchenko V. N., 2008b. Generation of Acoustic Waves during Nonlinear Interaction of Hydroacoustic and Electromagnetic Fields in the Marine Environment. Izvestiya AN. Fizika atmosfery i okeana 44(2), 271—275 (in Russian).

Semkin S. V., Smagin V. P., Savchenko V. N., 2008c. Hydroacoustic Wave in the External Alternating Magnetic Field. Geomagnetizm i aeronomiya 48(3), 336—339 (in Russian).

Tikhonov A. N., Samarskiy A. A., 1972. Equations of Mathematical Physics. Moscow: Nauka, 735 p. (in Russian).

Frank-Kamenetskiy D. A., 1964. Lectures on Plasma Physics. Moscow: Atomizdat, 278 p. (in Russian).

Shuman V. N., 2012. Electromagnetic-acoustic transformations and high-resolution sounding systems: new possibilities and new formulations of the old questions. Geofizicheskiy zhurnal 34(3), 38—39 (in Russian).

Published

2016-07-01

How to Cite

Kuzmina, L. M., Rylyuk, V. M., & Skipa, M. I. (2016). The interaction of acousnic and electromagnetic fields in a mixture of electrolytes. Geofizicheskiy Zhurnal, 38(2), 98–105. https://doi.org/10.24028/gzh.0203-3100.v38i2.2016.107769

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Articles