Y.L. Lomukhin - Dr. Sc. (Phys.-Math.), Professor, Institute of Physical Material Science SB RAS (Ulan-Ude). E-mail: lom@ipms.bscnet.ru
V.P. Butukhanov - Ph. D. (Eng.), Senior Research Scientist, Institute of Physical Material Science SB RAS (Ulan-Ude). E-mail: vbut1951@gmail.com
Y.B. Atutov - Ph. D. (Phys.-Math.), Research Scientist, Institute of Physical Material Science SB RAS (Ulan-Ude). E-mail: evgeniy_atutov@mail.ru

The multimode propagation mechanism in bordering environments was considered. A rigorous expressions backscatter coefficients in the bordering homogeneous media are given. The physical mechanisms of backscatter, taking into account the forced excitation of counter propagating waves. The connection between the backscatter coefficient and brightness temperature was established. A comparison of theoretical and experimental angular dependence of backscatter and brightness temperature of real soil and aquatic environments. Found good agreement between the data. Found good agreement between the data.

1. Radiolokaczionny'e metody' issledovaniya Zemli / Pod red. Yu.A. Mel'nik. M.: Sov. radio. 1980. S. 264.
2. Volosyuk V.K., Kravchenko V.F. Statisticheskaya teoriya radiotexnicheskix sistem distanczionnogo zondirovaniya i radiolokaczii. M.: Fizmatlit. 2008. S. 479.
3. Koshelev V.I., Petkun A.A., Tarkovskij V.M. Vliyanie xarakteristik sredy' so sluchajno neodnorodnoj poverxnost'yu i geometrii priemnoj reshetki na obnaruzhenie metallicheskix ob''ektov // Izvestiya VUZov. Fizika. Tomsk. 2013. T. 56. № 8/2. S. 160−163.
4. Podosenov S.A., Potapov A.A., Sokolov A.A. Impul'snaya e'lektrodinamika shirokopolosny'x radiosistem i polya svyazanny'x struktur. M.: Radiotexnika. 2003. S. 173.
5. Shutko A.M. SVCh-radiometriya vodnoj poverxnosti i pochvogruntov. M.: Nauka. 1986. S. 190.
6. Komarov S.A., Mironov V.L. Mikrovolnovoe zondirovanie pochv. Novosibirsk: Izd‑vo SO RAN. 2000. 257 s.
7. Rautian S.B. Ob otrazhenii i prelomlenii na granicze sredy' s otriczatel'noj gruppovoj skorost'yu // UFN. 2008. T. 178. № 10. S. 1017−1024.
8. Shoroxova E.A., Kashin A.V. Nekotory'e osobennosti rasseyaniya e'lektromagnitny'x voln na statisticheski nerovny'x zemny'x pokrovax v millimetrovom diapazone dlin voln // Izvestiya VUZov. Radiofizika. T. XLVIII. № 6. 2005. S. 478−487.
9. Lomuxin Yu.L. Mnogomodovaya struktura voln v granichashhix odnorodny'x sredax // Izvestiya VUZov. Fizika. Tomsk. 2013. № 8/2. S. 27−30.
10. Zel'dovich B.Ya., Pilipiczkij N.F., Shkurov V.V. Obrashhenie volnovogo fronta. M.: Nauka. Fiz.‑mat. lit. 1985. 240 s.
11. Mandel'shtam L.I. //Polnoe sobranie trudov. T. 5. M.: Izd‑vo AN SSSR. 1950. S. 422, 461.
12. Veselago V.G. E'lektrodinamika veshhestva s odnovremenno otriczatel'ny'mi znacheniyami ε i μ // UFN. 1967. T. 92. № 3.
13. Fejnman R., Lejton R., Se'nds M. Fejnmanovskie lekczii po fizike. M.: Mir. 1976. T. 3. S. 87.
14. Bass F.G., Fuks I.M. Rasseyanie voln na statisticheski neodnorodnoj poverxnosti. M.: Nauka. 1972. S. 191.
15. Adib Nashashibi, Fawwar T. Ulaby, Kamal Sarabandi. Measurement and Modeling of the Millimeter-Wave Backscatter Response of Soil Surfaces // IEEE Transactions on Geosciences and Remote Sensing. 1996. V. 34. № 2.
16. Lomuxin Yu.L., Atutov E.B., Butuxanov V.P. Uglovaya anizotropiya koe'fficzienta obratnogo rasseyaniya nerovnoj poverxnosti // Izvestiya VUZov. Fizika. Tomsk. 2013. № 8/2. S. 8−10.
17. Lomuxin Yu.L. Radioyarkostnaya temperatura i koe'fficzient obratnogo rasseyaniya // Vestnik SibGAU. Krasnoyarsk. 2013. № 5(51). S. 141−143.
18. Dagurov P.N., Dmitriev A.V., Bazarov A.V., Radnaeva S.B. Rezul'taty' izmerenij radioyarkostnoj temperatury' na territorii Buryatii kosmicheskim radiometrom SMOS // Vestnik SibGAU. Krasnoyarsk. 2013. № 5(51). S. 22−26.
19. Peake W.H., Oliver T.L. The response of Terrestrial surfaces at microwave frequencies. Technical Report AFAL‑TR‑70‑301. Electro Science Laboratory. Department of Electrical Engineering. The Ohio State University. Columbus. Ohio. 1971.
20. Ulaby F.T., Allen C.T., Fung A.K. Method for Retrieving the True Backscattering Coefficient from Measurements with a real Antenna // IEEE Transactions on Geoscience and Remote Sensing. 1983. V. GE‑21. № 3. P. 308−313.
21. Oh Y., Sarabandi K., Ulaby F.T. An empirical and an inversion technique for radar scattering from bare soil surfaces // IEEE Transactions on Geoscience and Remote Sensing. 1992. V. 30. P. 370−381.