Source: http://opticjourn.ru/annotations_12_2012/725-skeyling-v-harakteristikah-aperiodicheskih-mnogosloynyh-struktur.html
Timestamp: 2019-04-24 09:02:18+00:00

Document:
ports. 2003. V. 376. P. 225–337.
риалы. 2001. № 6. С. 38–44.
photonic structure for femtosecond pulse compression // Physical Review E. 2007. V. 75. P. 036609(1–7).
Optics Communications. 2009. V. 282. № 19. P. 4009–4013.
systems // Fiber and Integrated Optics. 2010. V. 29. № 3. P. 209–224.
Fibonacci quasi-superlattice // Journal of Physics: Condensed Matter. 1989. V. 1. № 43. P. 8241–8249.
кремнии // Journal of Siberian Federal University. Engineering & Technologies. 2010. V. 3. № 4. С. 430–443.
8. Angelsky O.V. New feasibilities for characterizing rough surfaces by optical correlation Techniques // Proc.
SPIE. 2002. V. 4607. P. 241–256.
ностей прозрачных материалов // Оптический журнал. 2003. Т. 70. № 11. С. 49–51.
size generalized Rudin-Shapiro multilayer heterostrutures // Journal of Physics: Condensed Matter. 1992.
V. 4. № 45. P. 8713–8728.
в оптике // Вестник Московского университета. Физика. Астрономия. 2009. № 4. С. 47–51.
tures // Phys. Rev. E. 2009. V. 79. № 5. P. 056226 – 1-13.
13. Борн М., Вольф Э. Основы оптики. М.: Наука, 1970. 856 с.
14. Macia? E. The role of aperiodic order in science and technology // Rep. Prog. Phys. 2006. V. 69. № 2.
15. Федер Е. Фракталы. М.: Мир, 1991. 254 с.

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