The influence of substrate on the reflective and transmissive properties of a two-layer conductive structure in the microwave range. As research object selected conductive shungite plate on non-conducting glass substrate. Investigated the frequency dependence of the amplitudes of the reflected and passing signals. Discovered a strong anomaly of the reflection of the resonant character due to the glass substrate. In the field of anomaly investigated the frequency dependence of reflection and transmission. Identified strengths exceeding the dynamic conductivity structure over the static caused by the mechanism of the granular currents.
wave propagation, multi-layer structure, shungite.
1. Lucev L.V., Nikolaychuk G.A., Petrov V.V., Yakovlev S.V. // Nanotehnika. 2008. №10. S.37.
2. Kazanceva N.E., Ryvkina N.G., Chmutin I.A. // RE. 2003. T.48. №2. S.196.
3. Ostrovskiy O.S., Odarenko E.N., Shmat'ko A.A. // Fizicheskaya inzheneriya poverhnosti. 2003. T.1. №2. S.161.
4. Antonov A.S., Panina L.V., Sarychev A.K. // ZhTF. 1989. T.59. №6. S.88.
5. Moshnikov I.A., Kovalevskiy V.V., Lazareva T.N., Petrov A.V. // Materialy soveschaniya «Geodinamika, magmatizm, sedimentogenez i minerageniya severozapada Rossii». Petrozavodsk: Institut geologii KarNC RAN. 2007. S.272.
6. Lyn'kov L.M., Mahmud M.Sh., Krishtopova E.A. // Vestnik Polockogo gosudarstvennogo universiteta. Seriya S «Fundamental'nye nauki». Novopolock: PGU. 2012. №4. S.103.
7. Borisov P.A. Karel'skie shungity. Petrozavodsk: Kareliya. 1956.
8. Filippov M.M. Shungitonosnye porody Onezhskoy struktury. Petrozavodsk: Karel'skiy NC RAN. 2002.
9. Sokolov V.A., Kalinin Yu.K., Dyukkiev E.F. (red). Shungity — novoe uglerodistoe syr'e. Petrozavodsk: Kareliya. 1984.
10. Sheka E.F., Golubev E.A. // ZhTF. 2016. T.86. №7. S.74.
11. Golubev E.A., Ulyashev V.V., Veligzhanin A.A. // Kristallografiya. 2016. T.61. №1. S.74.
12. Golovanov O.A., Makeeva G.S., Rinkevich A.B. // ZhTF. 2016. T.86. №2. S.119.
13. Rodionov V.V. Mehanizmy vzaimodeystviya SVChizlucheniya s nanostrukturirovannymi uglerodsoderzhaschimi materialami. Dissertaciya na soiskanie uchenoy stepeni k.f.m.n. Kursk. 2014.
14. Antonec I.V., Scheglov V.I. Rasprostranenie voln cherez mnogosloynye struktury. Chast' pervaya. Pryamoy metod. Syktyvkar: IPO SyktGU. 2011.
15. Antonec I.V., Kotov L.N., Nekipelov S.V., Shavrov V.G., Scheglov V.I. // RE. 2004. T.49. №10. 1243.
16. Antonec I.V., Kotov L.N., Shavrov V.G., Scheglov V.I. // RE. 2006. T.51. №12. S.1481.
17. Antonec I.V., Kotov L.N., Nekipelov S.V., Golubev E.A. // ZhTF. 2004. T.74. №3. S.24.
18. Antonec I.V., Kotov L.N., Shavrov V.G., Scheglov V.I. // RE. 2012. T.57. №1. S.67.
19. Antonec I.V., Kotov L.N., Shavrov V.G., Scheglov V.I. // RE. 2013. T.58. №1. S.16.
20. Antonec I.V., Kotov L.N., Shavrov V.G., Scheglov V.I. // Elektronnyy «Zhurnal radioelektroniki». 2013. №1. S.11. http://jre.cplire.ru/jre/jan 13/11/text.html
21. Antonec I.V., Scheglov V.I. Rasprostranenie voln cherez mnogosloynye struktury. Chast' pyataya. Algoritmicheskie metody. Syktyvkar: IPO SyktGU. 2014.
22. Antonec I.V., Scheglov V.I. Rasprostranenie voln cherez mnogosloynye struktury. Chast' sed'maya. Balans energiy. Syktyvkar: IPO SyktGU. 2015.
23. Born M., Vol'f E.Osnovy optiki. M.: Nauka. 1970.
24. Antonec I.V., Scheglov V.I. Rasprostranenie voln cherez tonkie sloi i plenki. Syktyvkar: IPO SyktGU. 2010.
25. Vlasov V.S., Kotov L.N., Shavrov V.G., Scheglov V.I. // RE. 2014. T.59. №9. S.882.
26. Antonec I.V., Kotov L.N., Kalinin Yu.E., Sitnikov A.V., Shavrov V.G., Scheglov V.I. // PZhTF. 2014. T.40. №14. S.1.
27. Antonec I.V., Kotov L.N., Kirpicheva O.A., Golubev E.A., Kalinin Yu.E., Sitnikov A.V., Shavrov V.G., Scheglov V.I. // RE. 2015. T.60. №8. S.839.
28. Antonec I.V., Vlasov V.S., Kotov L.N., Kirpicheva O.A., Golubev E.A., Kalinin Yu.E., Sitnikov A.V., Shavrov V.G., Scheglov V.I. // Elektronnyy «Zhurnal radioelektroniki». 2016. №5. S.10. http://jre.cplire.ru/jre/may16/10/text.html.
