Issues »  Volume 13, Issue 1

Features of Interaction of an Electromagnetic Radiation with Small Particles and Their Ensembles: Theoretical Aspects

L. B. Lerman$^{1}$, O. Yu. Gryshchuk$^{1}$, N. G. Shkoda$^{1}$, S. V. Shostka$^{2}$

$^1$O.O. Chuiko Institute of Surface Chemistry, NAS of Ukraine, 17 General Naumov Str., 03164 Kyiv, Ukraine
$^2$National University of Life and Environmental Sciences of Ukraine, 15 Heroyiv Oborony Str., 03141 Kyiv, Ukraine

Received: 28.11.2011; final version - 21.02.2012. Download: PDF

The state-of-the-art of researches of interaction of an electromagnetic radiation with nanoparticles and matrix–disperse systems based on them is considered. The basic calculation formulas are given within the wave and electrostatic approximations. Known results by this time are analysed for separate particles and corresponding disperse systems. Some numerical results obtained by authors last years are discussed.

Keywords: nanotechnology, nanoparticles, effecyive permittivity, absorption spectrum.

PACS: 42.25.Fx, 71.36.+c, 71.45.Gm, 73.20.Mf, 78.20.Bh, 78.67.-n, 78.68.+m

DOI: https://doi.org/10.15407/ufm.13.01.071

Citation: L. B. Lerman, O. Yu. Gryshchuk, N. G. Shkoda, and S. V. Shostka, Features of Interaction of an Electromagnetic Radiation with Small Particles and Their Ensembles: Theoretical Aspects, Usp. Fiz. Met., 13, No. 1: 71—100 (2012) (in Ukrainian), doi: 10.15407/ufm.13.01.071

References (67)  
  1. R. P. Feynman, Engineering and Science, 23, No. 5: 22 (1960).
  2. N. Tanigychi, Proc. Int. Conf. Prod. Eng. (Tokyo: 1974), part 2, p. 18.
  3. K. E. Drexler, Engines of Creation: The Coming Era of Nanotechnology (New York: Anchor Books: 1986).
  4. K. E. Drexler, Nanosystems. Molecular Machinery, Manufacturing, and Computation (New York: Willey: 1992).
  5. Springer Series in Optical Sciences (Eds. M. L. Brongersma and P. G. Kik) (Springer: 2007), vol. 131, p. 169.
  6. V. G. Udovitskii, FIP PSE, 6, No. 3–4: 193 (2008) (in Russian).
  7. G. G. Krushenko, Nanotechnology, No. 1 (13): 9 (2008) (in Russian).
  8. S. V. Gaponenko, N. N. Rozanov, E. L. Ivchenko et al., Optica Nanostructur (Optics of Nanostructures) (Saint Petersburg: Nedra: 2005) (in Russian).
  9. U. Kreibig and M. Volmer, Springer Series in Material Science (Springer: 1995), vol. 25, p. 527.
  10. C. F. Boren and D. R. Huffman, Absorption and Scattering of Light by Small Particles (New York: Wiley: 1983).
  11. J. Stretton, Teoriya Ehlectromagnetizma (Theory of Electromagnetism) (Moscow–Leningrad: Gostekhizdat: 1948) (Russian translation).
  12. V. N. Lopatin and F. Ya. Sid'ko, Vvedenie v Optiku Vzvesei Kletok (Introduction to Optics of Cell Suspensions) (Novosibirsk: Nauka: 1988) (in Russian).
  13. P. W. Barber, Light Scattering by Particles: Computational Methods (Singapore–New Jersey–London–Hong Kong: World Scientific: 1990), vol. 2. Crossref
  14. M. I. Mischenko, J. W. Hovenier, and L. D. Travis, Light Scattering by Nonspherical Particles (San Diego: Academic Press: 2000).
  15. M. I. Mischenko, Ehlektromagnitnoe Rasseyanie v Sluchainykh Dispersnykh Sredakh: Fundamental'naya Teoriya i Prilozheniya (Electromagnetic Scattering in Random Dispersed Media: Fundamental Theory and Applications) (Thesis of Disser. for Dr. Phys.-Math. Sci.) (Kyyiv–New York: 2007).
  16. C. G. Bohren and A. J. Hunt, Can. J. Phys, 55: 1930 (1977). Crossref
  17. M. Scharte, R. Porath, T. Ohms et al., Appl. Phys. B, 73, No. 4: 305 (2001). Crossref
  18. A. Mousssiaux, A. Ronveaux, and A. Lucas, Can. J. Phys., 55: 1423 (1977). Crossref
  19. S. Link and M. A. El-Sayed, J. Phys. Chem. B, 103: 1423 (1999).
  20. L. G. Grechko, O. A. Davidova, V. M. Ogenko, and N. G. Shkoda, Radiophysics and Radioastronomy, 6, No. 4: 143 (2001).
  21. J. Roth and M. J. Digman, J. Opt. Soc. Amer., 63, No. 3: 308 (1973). Crossref
  22. R. Sergio and S. Aragόn, J. Chem. Phys., 77, No. 7: 3406 (1982). Crossref
  23. B. Lange and S. R. Aragόn, J. Chem. Phys., 92, No. 15: 4643 (1990). Crossref
  24. Z. S. Wu and Y. P. Wang, Radio. Sci., 26: 1393 (1991). Crossref
  25. A. P. Prishivalko, V. A. Babenko, and V. N. Kuz'min, Rasseyanie i Pogloshchenie Sveta Neodnorodnymi i Anizotropnymi Sfericheskimi Chastitsami (Scattering and Absorption of Light by Nonuniform and Anisotropic Spherical Particles) (Minsk: Nauka i Tekhnika: 1984) (in Russian).
  26. M. Kerker, The Scattering of Light and Other Electromagnetic Radiation (New York–London: Academic Press: 1969).
  27. L. G. Grechko, V. N. Pustovit, and K. W. Whites, Appl. Phys. Lett., 76, No. 14: 1854 (2000). Crossref
  28. L. G. Grechko, V. V. Gozhenko, and K. W. Whites, Interdepartmental Digest of Scientific Paper (Ed. O. O. Chuiko) (Kyyiv: 2002), Iss. 4–6, p. 179.
  29. J. C. Maxwell-Garnett, Philos. Trans. Roy. Soc., 203: 385 (1904). Crossref
  30. L. G. Grechko, V. V. Motrych, V. M. Pustovit, and S. V. Shostak, Proc. of Confer. 'Physical Chemistry of Condensed Structural Nonuniform Systems' (Kyyiv: 1998), p. 20 (in Ukrainian).
  31. E. F. Venger, A. V. Goncharenko, and M. L. Dmytruk, Optyka Malykh Chastynok i Dyspersnykh Seredovyshch (Optics of Small Particles and Dispersed Media) (Kyyiv: Naukova Dumka: 1999) (in Ukrainian).
  32. W. T. Doyle, J. Appl. Phys., 49, No. 2:795 (1978). Crossref
  33. B. U. Felderhof, Physica A, 207, No. 1:13 (1994). Crossref
  34. R. G. Barrera, G. Monsivais, and W. L. Mochan, Phys. Rev. B, 38, No. 8: 5371 (1988). Crossref
  35. L. G. Grechko, V. G. Levandovskii, V. M. Ogenko, and A. N. Pinchuk, Proc. SPIE 'International Conference on Optical Storage, Imaging, and Transmission of Information' (May 14–16, Kiev, 1996) (Bellingham: SPIE Press: 1997), vol. 3055, p. 111.
  36. R. G. Barrera, G. Monsivais, W. L. Mochan, and E. Anda, Phys. Rev. B, 39, No. 14: 9998 (1989). Crossref
  37. R. Rojas and F. Claro, Phys. Rev. B, 34, No. 6: 3730 (1989). Crossref
  38. A. M. Jayannavar and N. Kumar, Phys. Rev. B, 44, No. 21: 12014 (1991). Crossref
  39. D. A. G. Bruggeman, P. J. Ann. Phys., 24, No. 7: 636 (1935) (in German). Crossref
  40. D. Stroud, Phys. Rev. B, 12, No. 8: 3368 (1975). Crossref
  41. K. Lichtenecker, Physik Z., B27: 115 (1926) (in German).
  42. H. Looyenga, Physica, 31, No. 3: 401 (1965). Crossref
  43. J. R. Birchak, C. G. Gardner, J. E. Hipp, and J. M. Victor, Proc. IEEE, 62: 93 (1974). Crossref
  44. D. J. Bergman, Les Méthodes de I'homogénéisation: Théorie et Application en Physique (Paris: Ecole d'Eté d'Analyse Numérique, Edition Eyrolles: 1985).
  45. L. G. Grechko, N. G. Shkoda, and S. V. Shostak, Ukr. Fiz. Zhurnal, 47, No. 7: 694 (2002) (in Ukrainian).
  46. Spravochnik po Spetsialnym Funktsiyam (Handbook of Special Functions) (Eds. M. Abramowitz and I. A. Stegun) (Moscow: Nauka: 1979) (in Russian).
  47. K. S. Shifrin, Rasseyanie Sveta v Mutnoi Srede (Light Scattering in Muddy Media) (Moscow–Leningrad: Gostechteorizdat: 1951) (in Russian).
  48. L. G. Grechko, L. B. Lerman, and N. G. Shkoda, Visnyk of Kyyiv University. Ser. Physics and Mathematics, No. 1: 386 (2004) (in Ukrainian).
  49. L. G. Grechko, L. B. Lerman, and N. G. Shkoda, Visnyk of Kyyiv University. Ser. Physics and Mathematics, No. 2: 474 (2004) (in Ukrainian).
  50. L. G. Grechko, L. B. Lerman, and N. G. Shkoda, Visnyk of Kyyiv University. Ser. Physics and Mathematics, No. 3: 376 (2004) (in Ukrainian).
  51. L. G. Grechko, G. A. Eremenko, G. V. Krylova et al., Visnyk of Kyyiv University. Ser. Physics and Mathematics, No. 4: 450 (2004) (in Ukrainian).
  52. L. G. Grechko, L. B. Lerman, O. Ya. Pokotylo, and N. G. Shkoda, Visnyk of Kyyiv University. Ser. Physics and Mathematics, No. 3: 490 (2005) (in Ukrainian).
  53. Yu. S. Goncharuk, L. G. Grechko, O. Yu. Gryschuk et al., Visnyk of Kyyiv University. Ser. Physics and Mathematics, No. 2: 376 (2006) (in Ukrainian).
  54. L. G. Grechko, L. B. Lerman, Yu. S. Goncharuk et al., Visnyk of Kyyiv University. Ser. Physics and Mathematics, No. 3: 451 (2006) (in Ukrainian).
  55. L. G. Grechko, L. B. Lerman, L. M. Bilokrynytska, and S. V. Shostak, Visnyk of Kyyiv University. Ser. Physics and Mathematics, No. 1: 416 (2007) (in Ukrainian).
  56. L. G. Grechko, L. B. Lerman, D. L. Vodop'yanov, and S. V. Shostak, Visnyk of Kyyiv University. Ser. Physics and Mathematics, No. 1: 416 (2007) (in Ukrainian).
  57. D. L. Vodop'yanov, L. G. Grechko, L. B. Lerman, and L. M. Bilokrynytska, Visnyk of Kyyiv University. Ser. Physics and Mathematics, No. 3: 345 (2007) (in Ukrainian).
  58. D. L. Vodop'yanov, L. G. Grechko, P. P. Gorbyk et al., Chemistry Physics and Technology of Surface, No. 13: 48 (2007) (in Russian).
  59. L. G. Grechko, O. Yu. Gryshchuk, L. Yu. Kunyts'ka et al., Metallofiz. Noveishie Tekhnol., 30, No. 6: 789 (2008) (in Russian).
  60. L. B. Lerman, Chemistry Physics and Technology of Surface, No. 14: 91 (2008) (in Russian).
  61. L. B. Lerman, M. A. Lyuschenko, Yu. S. Krivoruchko et al., Chemistry Physics and Technology of Surface, No. 14: 101 (2008) (in Russian).
  62. L. B. Lerman, Nanosystems, Nanomaterials, Nanotechnologies, 7: 37 (2009) (in Ukrainian).
  63. L. G. Grechko, L. B. Lerman, S. L. Korech'kii et al., Visnyk of Kyyiv University. Ser. Physics and Mathematics, No. 4: 260 (2008) (in Ukrainian).
  64. L. B. Lerman, M. A. Lyuschenko, and Yu. S. Krivoruchko, Chemistry Physics and Technology of Surface, No. 15: 51 (2009) (in Russian).
  65. L. G. Grechko, O. Yu. Grischuk, L. B. Lerman, and L. D. Shpak, Nanomaterials and Supramolecular Structures: Physics, Chemistry and Applications (Eds. A. P. Shpak and P. P. Gorbyk) (Springer: 2009), p. 3. Crossref
  66. L. G. Grechko, L. B. Lerman, N. G. Shkoda et al., Visnyk of Kyyiv University. Ser. Physics and Mathematics, No. 4: 195 (2009) (in Ukrainian).
  67. P. B. Jonson and R. W. Christy, Phys. Rev. B, 6, No. 12: 4370 (1972). Crossref
Cited By (2)
  1. O. Yu. Gryshchuk and S. V. Stetsenko, Metallofiz. Noveishie Tekhnol. 36, 391 (2016).
  2. L.B. Lerman, Him. Fiz. Tehnol. Poverhni 7, 255 (2016).

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