Диссертация (1105407), страница 27
Текст из файла (страница 27)
—v. 2, no. 7. — pp. 993–999.[136] Шен И. Принципы нелинейной оптики. — Наука, 1989.[137] Бломберген Н. Нелинейная оптика. — Мир, 1966.[138] Boyd R. W. Nonlinear Optics. — Academic press, 2003.[139] Thyagarajan K., Rivier S., Lovera A., Martin O. J. Enhanced second-harmonicgeneration from double resonant plasmonic antennae // Opt. Express. — 2012. —v. 20, no. 12. — pp. 12860–12865.[140] Kauranen M., Zayats A. V.
Nonlinear plasmonics // Nature Photon. — 2012. —v. 6, no. 11. — pp. 737–748.[141] Константинова Т. В., Мелентьев П. Н., Афанасьев А. Е., Кузин А. А.,Стариков П. А., Батурин А. С., Таусенев А. В., Конященко А. В., Балыкин В. И. Наноотверстие в тонкой металлической пленке как эффективныйнелинейно-оптический элемент // ЖЭТФ. — 2013. — т. 144, № 1. — с. 27.[142] Melentiev P., Konstantinova T., Afanasiev A., Kuzin A., Baturin A.,Tausenev A., Konyaschenko A., Balykin V. Single nano-hole as a new effectivenonlinear element for third-harmonic generation // Laser Phys.
Lett. — 2013. —v. 10, no. 7. — p. 075901.Список литературы167[143] Мелентьев П. Н., Афанасьев А. Е., Балыкин В. И. Гигантская оптическаянелинейность плазмонных наноструктур // Квант. электрон. — 2014. —т. 44, № 6. — с. 547–551.[144] В.Г. Беспрозванных В. П. Нелинейная оптика. — изд-во Перм. гос. техн.ун-та, Пермь, 200 c, 2011.[145] Делоне Н.
Нелинейная оптика. — М.: ФИЗМАТЛИТ, 64 c, 2003.[146] Kasymdzhanov M., Kurbanov S., Zakhidov E., Rakhimov R. Y., Khabibullaev P.One and two-photon absorption in multicomponent glasses and the measurementof cubic nonlinear susceptibility // Opt. Spectrosc. — 2006. — v. 101, no. 1. —pp. 109–113.[147] He G. S., Liu S. H. Physics of nonlinear Optics. — World Scientific, 1999. —v. 216.[148] Sutherland R. L. Handbook of nonlinear Optics. — CRC press, 2003.[149] Sheik-Bahae M., Said A., Wei T.-H., Hagan D. J., Van Stryland E.
W. et al.Sensitive measurement of optical nonlinearities using a single beam // IEEE J.Quant. Electron. — 1990. — v. 26, no. 4. — pp. 760–769.[150] McMorrow D., Lotshaw W. T., Melinger J. S., Buchner S., Pease R. L. Subbandgap laser-induced single event effects: Carrier generation via two-photonabsorption // IEEE Trans. Nucl. Sci. — 2002. — v.
49, no. 6. — pp. 3002–3008.[151] Boggess Jr T. F., Bohnert K. M., Mansour K., Moss S. C., Boyd I. W.,Smirl A. L. Simultaneous measurement of the two-photon coefficient and freecarrier cross section above the bandgap of crystalline silicon // IEEE J. Quant.Electron.
— 1986. — v. 22, no. 2. — pp. 360–368.[152] Woodall M., Soileau M., Smirl A. L. Two photon absorption, nonlinear refraction, and optical limiting in semiconductors // Opt. Eng. — 1985. — v. 24,no. 4. — pp. 613–623.Список литературы168[153] Bristow A. D., Rotenberg N., Van Driel H. M. Two-photon absorption and Kerrcoefficients of silicon for 850-2200 nm // Appl. Phys.
Lett. — 2007. — v. 90,no. 19. — p. 191104.[154] Garcia H., Kalyanaraman R. Phonon-assisted two-photon absorption in the presence of a dc-field: the nonlinear Franz–Keldysh effect in indirect gap semiconductors // J. Phys. B. — 2006. — v. 39, no. 12. — p. 2737.[155] Street R. Technology and applications of amorphous silicon.
— Springer Science& Business Media, 2013. — v. 37.[156] Street R. A. Hydrogenated amorphous silicon. — Cambridge University Press,2005.[157] Chopra K., Paulson P., Dutta V. et al. Thin-film solar cells: an overview // Prog.Photov. — 2004. — v. 12, no. 2-3. — pp.
69–92.[158] Makarov S., Kudryashov S., Mukhin I., Mozharov A., Milichko V., Krasnok A.,Belov P. Tuning of magnetic optical response in a dielectric nanoparticle byultrafast photoexcitation of dense electron–hole plasma // Nano Lett. — 2015. —v. 15, no. 9. — pp. 6187–6192.[159] Lewi T., Iyer P. P., Butakov N.
A., Mikhailovsky A. A., Schuller J. A. Widelytunable infrared antennas using free carrier refraction // Nano Lett. — 2015. —v. 15, no. 12. — pp. 8188–8193.[160] Krasnok A. E., Miroshnichenko A. E., Belov P. A., Kivshar Y. S. All-dielectricoptical nanoantennas // Opt. Express. — 2012. — v.
20, no. 18. — pp. 20599–20604.[161] Fu Y. H., Kuznetsov A. I., Miroshnichenko A. E., Yu Y. F., Luk’yanchuk B.Directional visible light scattering by silicon nanoparticles // Nat. Commun. —2013. — v. 4. — p. 1527.Список литературы169[162] Fontana E. Theoretical and experimental study of the surface plasmon resonanceeffect on a recordable compact disk // Appl. Opt. — 2004. — v.
43, no. 1. —pp. 79–87.[163] Kaplan B., Guner H., Senlik O., Gurel K., Bayindir M., Dana A. Tuning opticaldiscs for plasmonic applications // Plasmonics. — 2009. — v. 4, no. 3. — pp. 237–243.[164] Wollenhaupt M., Assion A., Baumert T. Femtosecond laser pulses: linear properties, manipulation, generation and measurement // Springer Handbook of Lasersand Optics. — Springer, 2007. — pp. 937–983.[165] Weiner A. M. Ultrafast optical pulse shaping: A tutorial review // Opt. Commun. — 2011.
— v. 284, no. 15. — pp. 3669–3692.[166] Trebino R. FROG. — Springer, 2000.[167] Sala K. L., Kenney-Wallace G., Hall G. E. et al. CW autocorrelation measurements of picosecond laser pulses // IEEE J. Quant. Electron. — 1980. — v. 16,no. 9. — pp.
990–996.[168] Ikeda K., Shen Y., Fainman Y. Enhanced optical nonlinearity in amorphoussilicon and its application to waveguide devices // Opt. Express. — 2007. — v. 15,no. 26. — pp. 17761–17771.[169] Bechtel J., Smith W. L. Two-photon absorption in semiconductors with picosecond laser pulses // Phys. Rev. B. — 1976. — v. 13, no. 8. — p. 3515.[170] Yoshida N., Shimizu Y., Honda T., Yokoi T., Nonomura S.
A study of absorption coefficient spectra in a-Si:H films near the transition from amorphous tocrystalline phase measured by resonant photothermal bending spectroscopy //J. Non-Cryst. Solids. — 2008. — v. 354, no. 19. — pp. 2164–2166.[171] Grillet C., Carletti L., Monat C., Grosse P., Bakir B. B., Menezo S., Fedeli J.,Moss D. J. High Kerr nonlinearity hydrogenated amorphous silicon nanowiresСписок литературы170with low two photon absorption and high optical stability // arXiv preprintarXiv:1405.2904.
— 2014.[172] Narayanan K., Preble S. F. Optical nonlinearities in hydrogenated-amorphoussilicon waveguides // Opt. Express. — 2010. — v. 18, no. 9. — pp. 8998–9005..