Voir la notice de l'article provenant de la source Math-Net.Ru
[1] Eremin Yu. A., Sveshnikov A. G., Metod diskretnykh istochnikov v zadachakh elektromagnitnoi difraktsii, Izd-vo MGU, M., 1992
[2] Eremin Yu. A., Orlov N. V., Sveshnikov A. G., “Analiz slozhnykh zadach difraktsii na osnove metoda diskretnykh istochnikov”, Zh. vychisl. matem. i matem. fiz., 35:6 (1995), 918–934 | MR | Zbl
[3] T. Wried (ed.), Generalizes multipole techniques for electromagnetic and light scattering, Elsevier Sci., Amsterdam, 1999
[4] Eremin Yu. A., Sveshnikov A. G., “Analiz metodom diskretnykh istochnikov difraktsii elektromagnitnykh voln na trekhmernykh rasseivatelyakh”, Zh. vychisl. matem. i matem. fiz., 39:12 (1999), 2050–2063 | MR | Zbl
[5] Dmitriev V. I., Polya v sloistykh sredakh, Izd-vo MGU, M., 1963
[6] Colton D., Kress R., Inverse acoustic and electromagnetic scattering theory, Springer, Berlin, 1992 | MR
[7] Agranovich M. C., “Ellipticheskie operatory na zamknutykh mnogoobraziyakh”, Itogi nauki i tekhn. Ser. sovrem. probl. matem., 63, VINITI, M., 1990, 6–126 | MR
[8] Felsen L., Markuvits N., Izluchenie i rasseyanie voln, v. 1, Mir, M., 1978
[9] Eremin Yu. A., Orlov N. V., Sveshnikov A. G., “Models of electromagnetic scattering problems based on discrete sources methods”, Generalizes Multipole Techn. Electromagnetic and Light Scattering, Elsevier Sci., Amsterdam, 1999, 39–79
[10] Grishina H. B., Eremin Yu. A., Sveshnikov A. G., “Matematicheskie modeli defektov sloistykh struktur na osnove metoda diskretnykh istochnikov”, Fundament. i prikl. matem., 4:3 (1998), 475–480 | MR
[11] Martin Y., Zenhausern F., Wiskramasinghe H. K., “Scattering spectroscopy of molecules at nanometer resolution”, Appl. Phys. Letts, 68:18 (1996), 2475–2477 | DOI
[12] Fillard J. P., Castagne M., Benfedda M. et al., “Virtual photon scattering at subwavelength sised tips”, Appl. Phys. A, 63 (1996), 421–425 | DOI
[13] Chang S., Kim J. T., Jo J. H., Lee S. S., “Optical force on a sphere caused by the evanescent field of a Gaussian beam; effects of multiple scattering”, Opt. Communs., 139 (1997), 252–261 | DOI
[14] Chaumet P. C., Rahmani A., Fornel F., Dufour J.-P., “Evanescent light scattering: The validity of the dipole approximation”, Phys. Rev. B, 58:4 (1998), 2310–2315 | DOI
[15] Quinten M., Pack A., Wannemacher R., “Scattering and extinction of evanescent waves by small particles”, Appl. Phys. B, 68 (1999), 87–92 | DOI
[16] Wannemacher R., Pack A., Quinten M., “Resonant absorption and scattering in evanescent fields”, Appl. Phys. B, 68 (1999), 225–232 | DOI
[17] Born M., Volf E., Osnovy optiki, Nauka, M., 1970
[18] Baliga J., “Defect detection on patterened wafers”, Semiconductor Internat., 4 (1997), 64–70
[19] Eremin Yu. A., Orlov H. B., Sveshnikov A. G., “Identifikatsiya defektov silikonovykh podlozhek v ustroistvakh mikroelektroniki metodom diskretnykh istochnikov”, Elektromagn. volny, 1998, no. 5, 34–43 | MR
[20] Grenfell T. C., Warren S. G., “Representation of a nonspherical ice particle by a collection of independent spheres for scattering and absorption of radiation”, Geophys. Res., 104:D24 (1999), 31697–31709 | DOI
[21] Grishina H. B., Eremin Yu. A., Sveshnikov A. G., “Analiz metodom diskretnykh istochnikov rasseivayuschikh svoistv neosesimmetrichnykh struktur”, Matem. modelirovanie, 12:8 (2000), 77–90 | MR | Zbl
[22] Eremin Yu. A., Sveshnikov A. G., “Matematicheskaya model rasseyaniya virtualnykh fotonov”, Vestn. MGU. Ser. 15. Vychisl. matem. i kibernetika, 2000, no. 4, 14–19