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[1] Sarid D., Challener W., Modern introduction to surface plasmons. Theory, mathematical modeling, and applications, Cambridge Univ. Press, 2010
[2] Abdulhalim I., Zourov M., Lakhtakia A., “Surface plasmon resonance for biosensing: A multi-review”, Electromagnetics, 28 (2008), 214–242 | DOI
[3] Novotny L., van Hulst N., “Antennas for light (Review article)”, Nature photonics, 5 (2011), 83–90 | DOI
[4] Zhang J., Zhang L., “Nanostructures for surface plasmons”, Advances in Optics and Photonics, 4 (2012), 157–321 | DOI
[5] Grishina N. V., Eremin Yu. A., Sveshnikov A. G., “Issledovanie ekstremalnogo rasseyaniya neizluchayuschikh voln metodom diskretnykh istochnikov”, Zhurn. vychisl. matem. i matem. fiz., 51:9 (2011), 1712–1720
[6] Grishina N. V., Eremin Yu. A., Sveshnikov A. G., “Analiz prostranstvennykh rezonansov v pole neizluchayuschikh voln metodom diskretnykh istochnikov”, Optika i spektroskopiya, 115:1 (2013), 133–139 | DOI
[7] Eremin Yu. A., Sveshnikov A. G., “Effekt dvoinogo plazmonnogo rezonansa v pole neizluchayuschikh voln”, Dokl. AN, 454:6
[8] Akjouj A., Lévêque G., Szunerits S. et al., “Nanometal plasmon polaritons”, Surface Sci. Rep., 68 (2013), 1–67 | DOI
[9] Eremin Yu. A., Sveshnikov A. G., “Matematicheskie modeli zadach nanooptiki i biofotoniki na osnove metoda diskretnykh istochnikov”, Zh. vychisl. matem. i matem. fiz., 47:2 (2007), 266–284
[10] Dmitriev V. I., Polya v sloistykh sredakh, Izd-vo MGU, M., 1963
[11] Eremin Yu. A., Orlov N. V., Sveshnikov A. G., “Models of electromagnetic scattering problems based on discrete sources methods”, Generalizes Multipole Techniques for Electromagnetic and Light Scattering, ed. T. Wriedt, Elsevier Science, Amsterdam, 1999, 39–79 | DOI
[12] Maier S., Plasmonics: Fundamentals and applications, Springer, Berlin, 2007
[13] Hill R. T., Mock J. J., Urzhumov Y. et al., “Leveraging nanoscale plasmonic modes to achieve reproducible enhancement of Light”, Nano Lett., 10 (2010), 4150–4154 | DOI