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Further Reading
Bergmann-Schäfer: Lehrbuch der Experimentalphysik, Bd. III: Optik, 9. Aufl. (Walter de Gruyter, Berlin 1993) [engl.: Textbook of experimental physics, vol. III: Optics, 9th edn]
А.Н. Матвеев: Оnmuкa Высшая Школа (Москва 1985) (in Russ.) [engl: A.N. Matveev: Optics]
Aleksandra B. Djurišić and E. Herbert Li: Modeling the index of refraction of insulating solids with a modified Lorentz oscillator model, Appl. Opt. 37, 5291–5297 (1998)
A. Franke, A. Stendal, O. Stenzel, and C. vonBorczyskowski: Gaussian quadrature approach to the calculation of the optical constants in the vicinity of inhomogeneously broadened absorption lines, Pure Appl. Opt. 5, 845–853 (1996)
Michael E. Thomas: A computer code for modeling optical properties of window materials, SPIE 1112: Window and Dome Technologies and Materials, 260–267 (1989)
Olaf Stenzel: Optical absorption of heterogeneous thin solid films, Adv. in Solid State Phys. 39, 151–160 (1999)
U. Kreibig and M. Vollmer: Optical Properties of Metal Clusters, Springer Series in Materials Science, Vol. 25 (Springer-Verlag, Heidelberg 1995)
L.D. Landau and E.M. Lifschitz: Lehrbuch der theoretischen Physik, Bd. VIII: Elektrodynamik der Kontinua (Akademie-Verlag, Berlin 1985) [engl.: Textbook of the theoretical physics, vol. VIII: Electrodynamics of continua]
Vladimir M. Shalaev: Optical Properties of Nanostructured Random Media (Spinger-Verlag, Berlin Heidelberg New York 2002)
D.E. Aspnes and J.B. Theeten, F. Hottier: Investigation of effective-medium models of microscopic surface roughness by spectroscopic ellipsometry, Phys. Rev. B 20, 3292–3302 (1979)
W. Theiss: The use of effective medium theories in optical Spectroscopy, Festkörperprobleme/Adv. in Solid State Phys. 33 (1993)
W.A. Weimer and M.J. Dyer: Tunable surface plasmon resonance silver films, Appl. Phys. Lett. 79, 3164–3166 (2001)
V.A. Markel, V.M. Shalaev, P. Zhang, W. Huynh, L. Tay, T.L. Haslett, and M. Moskovits: Near-field optical spectroscopy of individual surface-plasmon modes in colloid clusters, Phys. Rev. B 59, 10903–10909 (1999)
S.J. Oldenburg, R.D. Averitt, S.L. Westcott, and N.J. Halas: Nanoengineering of optical resonances. Chem. Phys. Lett. 288, 243–247 (1998)
Alexander Wokaun: Surface-enhanced electromagnetic processes, Solid State Phys. 38, 223–294 (1984)
T. Yamaguchi, S. Yoshida, and A. Kinbara: Optical effect of the substrate on the anomalous absorption of aggregated silver films, Thin Solid Films 21, 173–187 (1974)
Joachim R. Krenn und Franz R. Aussenegg: Nanooptik mit metallischen Strukturen, Physik Journal 1, Nr. 3, 39–45 (2002) [engl.: Nano-optics with metallic structures]
Johannes Bosbach, Franz Stietz und Frank Träger: Ultraschnelle Elektrodynamik in Nanoteilchen, Physikalische Blätter 57, Nr. 3, 59–62 (2001) [engl.: Ultra fast electrodynamics in nano-particles]
Franz Stietz und Frank Träger: Monodispersive Metallcluster auf Oberflächen, Physikalische Blätter 55, Nr. 9, 57–60 (1999) [engl.: Monodispersive metal clusters on surfaces]
U. Kreibig, M. Gartz, and A. Hilger: Mie resonances: Sensors for physical and chemical cluster interface properties; Ber. Bunsenges. Phys. Chem. 101, 1593–1604 (1997)
Rolf E. Hummel and P. Wißmann (Eds.): Handbook of Optical Properties, vol. II: Optics of Small Particles, Interfaces, and Surfaces (CRC Press, Boca Raton New York London Tokyo 1995)
O. Stenzel, S. Wilbrandt, A. Stendal, U. Beckers, K. Voigtsberger, and C. von Borczyskowski: The incorporation of metal clusters into thin organic dye layers as a method for producing strongly absorbing composite layers: an oscillator model approach to resonant metal cluster absorption, J. Phys. D: Appl. Phys. 28, 2154–2162 (1995)
O. Stenzel, A. Stendal, M. Röder, and C. von Borczyskowski: Tuning of the plasmon absorption frequency of silver and indium nanoclusters via thin amorphous silicon films, Pure Appl. Opt. 6, 577–588 (1997)
Bangyi Yang, Barbara L. Walden, Russell Messier, and William B. White: Computer simulation of the cross-sectional morphology of thin films, SPIE 821: Modeling of Optical Thin Films, 68-76 (1987)
E.E. Chain and D.M. Byrne: Microstructural information related to thin film optical measurements, Thin Solid Films 181, 323–332 (1989)
Junzo Ishikawa, Yasuhiko Takeiri, Kiyoshi Ogawa, and Toshinori Takagi: Transparent carbon film prepared by mass-separated negative-carbon-ionbeam deposition, J. Appl. Phys 61, 2509–2515 (1987)
Eva C. Freeman and William Paul: Optical constants of rf sputtered hydrogenated amorphous Si, Phys. Rev. B 20, 716–728 (1979)
M.H. Brodsky (Ed.): Amorphous Semiconductors (Springer-Verlag, Berlin Heidelberg New York 1979)
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(2005). Derivations from the Oscillator Model. In: The Physics of Thin Film Optical Spectra. Springer Series in Surface Sciences, vol 44. Springer, Berlin, Heidelberg. https://doi.org/10.1007/3-540-27905-9_4
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DOI: https://doi.org/10.1007/3-540-27905-9_4
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