Диссертация (1025280), страница 29
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584, № 1. P. 012013.281. Banham M. R., Katsaggelos A. K. Digital image restoration // IEEE SignalProcessing Magazine. 1997. Vol. 14, № 2. P. 24ҫ41.282. Buccigrossi R. W., Simoncelli E. P. Image compression via joint statistical characterization in the wavelet domain // IEEE Transactions on ImageProcessing. 1999. Vol. 8, № 12.
P. 1688ҫ1701.283. Chuev G. N., Fedorov M. V. Wavelet treatment of structure and thermodynamics of simple liquids // The Journal of Chemical Physics. 2004.Vol. 120, № 3. P. 1191ҫ1196.284. Mathematical analysis of the wavelet method of chaos control / S.F. Shieh [et al.] // Journal of Mathematical Physics. 2006. Vol.
47, № 8.P. 082701.285. Wavelet analysis of molecular dynamics: eicient extraction of timefrequency information in ultrafast optical processes / J. Prior [et al.] //The Journal of Chemical Physics. 2013. Vol. 139, № 22. P. 224103.286. De Castro E., Morandi C. Registration of translated and rotated imagesusing ҥnite fourier transforms // IEEE Transactions on Pattern Analysisand Machine Intelligence. 1987. Vol. PAMI-9, № 5. P.
700ҫ703.287. Reddy B. S., Chatterji B. N. An FFT-based technique for translation, rotation, and scale-invariant image registration // IEEE Transactions on ImageProcessing. 1996. Vol. 5, № 8. P. 1266ҫ1271.288. Davis C. The norm of the Schur product operation // Numerische Mathematik. 1962. Vol. 4, № 1. P. 343ҫ344.289. A fast direct Fourier-based algorithm for subpixel registration of images /H. S. Stone [et al.] // IEEE Transactions on Geoscience and Remote Sensing.2001.
Vol. 39, № 10. P. 2235ҫ2243.290. McGowan R. W., Gallot G., Grischkowsky D. Propagation of ultrawidebandshort pulses of terahertz radiation through submillimeter-diameter circularwaveguides // Optics Letters. 1999. Vol. 24, № 20. P. 1431ҫ1433.160291.
Bowden B., Harrington J. A., Mitrofanov O. Low-loss modes in hollow metallic terahertz waveguides with dielectric coatings // Applied Physics Letters.2008. Vol. 93, № 18. P. 181104.292. Transmission characteristics of terahertz hollow ҥber with an absorptive dielectric inner-coating ҥlm / X.-L. Tang [et al.] // Optics Letters. 2009.Vol. 34, № 14. P. 2231ҫ2233.293.
Mitrofanov O., Harrington J. A. Dielectric-lined cylindrical metallic THzwaveguides: mode structure and dispersion // Optics Express. 2010.Vol. 18, № 3. P. 1898ҫ1903.294. Reducing transmission losses in hollow THz waveguides / O. Mitrofanov [et al.] // IEEE Transactions on Terahertz Science and Technology.2011. Vol. 1, № 1.
P. 124ҫ132.295. Terahertz wave transmission in ѕexible polystyrene-lined hollow metallicwaveguides for the 2.5-5 THz band / M. Navarro-Cia [et al.] // Optics Express. 2013. Vol. 21, № 20. P. 23748ҫ23755.296. Wang K., Mittleman D. M. Metal wires for terahertz wave guiding // Nature.2004. Vol. 432. P. 376ҫ379.297.
Yeh C., Shimabukuro F., Siegel P. H. Low-loss terahertz ribbon waveguides // Applied Optics. 2005. Vol. 44, № 28. P. 5937ҫ5946.298. Cao H., Nahata A. Coupling of terahertz pulses onto a single metal wirewaveguide using milled grooves // Optics Express. 2005. Vol.
13, № 18.P. 7028ҫ7034.299. Mbonye M., Mendis R., Mittleman D. M. A terahertz two-wire waveguidewith low bending loss // Applied Physics Letters. 2009. Vol. 95, № 23.P. 233506.300. Yang J., Cao Q., Zhou C. An explicit formula for metal wire plasmon ofterahertz wave // Optics Express. 2009. Vol. 17, № 23. P. 20806ҫ20815.301. Pahlevaninezhad H., Darcie T. E. Coupling of terahertz waves to a two-wirewaveguide // Optics Express. 2010. Vol. 18, № 22. P.
22614ҫ22624.302. Terahertz pulse propagation in a plastic photonic crystal ҥber /H. Han [et al.] // Applied Physics Letters. 2002. Vol. 80, № 15. P. 2634ҫ2636.303. Low-loss subwavelength plastic ҥber for terahertz waveguiding / L.J. Chen [et al.] // Optics Letters. 2006. Vol. 31, № 3. P. 308ҫ310.161304. Skorobogatiy M., Dupuis A. Ferroelectric all-polymer hollow Bragg ҥbersfor terahertz guidance // Applied Physics Letters. 2007.
Vol. 90, № 11.P. 113514.305. Highly birefringent terahertz polarization maintaining plastic photonic crystal ҥbers / M. Cho [et al.] // Optics Express. 2008. Vol. 16, № 1. P. 7ҫ12.306. Hassani A., Dupuis A., Skorobogatiy M. Low loss porous terahertz ҥberscontaining multiple subwavelength holes // Applied Physics Letters. 2008.Vol. 92, № 7. P. 071101.307. Hassani A., Dupuis A., Skorobogatiy M. Porous polymer ҥbers for low-lossTerahertz guiding // Optics Express. 2008. Vol.
16, № 9. P. 6340ҫ6351.308. Porous ҥbers: a novel approach to low loss THz waveguides / S. Atakaramians [et al.] // Optics Express. 2008. Vol. 16, № 12. P. 8845ҫ8854.309. Bendable, low-loss TOPAS ҥbers for the terahertz frequency range /K. Nielsen [et al.] // Optics Express. 2009. Vol. 17, № 10. P. 8592ҫ8601.310. Spectral characterization of porous dielectric subwavelength THz ҥbers fabricated using a microstructured molding technique / A. Dupuis [et al.] //Optics Express. 2010. Vol.
18, № 13. P. 13813ҫ13828.311. THz propagation in kagome hollow-core microstructured ҥbers / J. Anthony [et al.] // Optics Express. 2011. Vol. 19, № 19. P. 18470ҫ18478.312. Polymer microstructured optical ҥbers for terahertz wave guiding /B. Ung [et al.] // Optics Express. 2011. Vol. 19, № 26. P. B848ҫB861.313. Label-free bacteria detection using evanescent mode of a suspended coreterahertz ҥber / A. Mazhorova [et al.] // Optics Express. 2012. Vol. 20, № 5.P. 5344ҫ5355.314. Setti V., Vincetti L., Argyros A. Flexible tube lattice ҥbers for terahertzapplications // Optics Express.
2013. Vol. 21, № 3. P. 3388ҫ3399.315. Graded index porous optical ҥbers ҫ dispersion management in terahertzrange / T. Ma [et al.] // Optics Express. 2015. Vol. 23, № 6. P. 7856ҫ7869.316. Markov A., Skorobogatiy M. Hybrid plasmonic terahertz ҥbers for sensingapplications // Applied Physics Letters.
2013. Vol. 103, № 18. P. 181118.317. Anthony J., Leonhardt R., Argyros A. Hybrid hollow core ҥbers with embedded wires as THz waveguides // Optics Express. 2013. Vol. 21, № 3.P. 2903ҫ2912.162318. Markov A., Skorobogatiy M. Two-wire terahertz ҥbers with porous dielectricsupport // Optics Express. 2013. Vol. 21, № 10. P. 12728ҫ12743.319. Markov A., Guerboukha H., Skorobogatiy M. Hybrid metal wire-dielectricterahertz waveguides: challenges and opportunities // Journal of the OpticalSociety of America B.
2014. Vol. 31, № 11. P. 2587ҫ2600.320. Степанов А. В. Будущее металлообработки.Ленинград, СССР:Лениздат, 1963. 131 с.321. Chalmers B., LaBelle Jr. H. E., Mlavsky A. I. Edge-deҥned, ҥlm-fed crystalgrowth // Journal of Crystal Growth. 1972. Vol. 106, № 5. P. 84ҫ87.322. Kurlov V. N., Rossolenko S. N. Growth of shaped sapphire crystals usingautomated weight control // Journal of Crystal Growth. 1997. Vol. 173, № 3ҫ4. P. 417ҫ426.323. Antonov P. I., Kurlov V. N. A review of developments in shaped crystalgrowth of sapphire by the Stepanov and related techniques // Progress inCrystal Growth and Characterization of Materials. 2002.
Vol. 44, № 2.P. 63ҫ122.324. Abrosimov N. V., Kurlov V. N., Rossolenko S. N. Automated controlof Czochralski and shaped crystal growth processes using weighing techniques // Progress in Crystal Growth and Characterization of Materials.2003. Vol. 46, № 1ҫ2. P. 1ҫ57.325. Antonov P. I., Kurlov V. N. New advances and developments in the Stepanovmethod for the growth of shaped crystals // Crystallography Reports. 2002.Vol. 47, № 1. P.
S43ҫS52.326. Jamison S. P., McGowan R. W., Grischkowsky D. Single-mode waveguidepropagation and reshaping of sub-ps terahertz pulses in sapphire ҥbers //Applied Physics Letters. 2000. Vol. 76, № 15. P. 1987ҫ1989.327. Encyclopedia of materials: science and technology / K. H. Jurgen Buschow,R. W.
Cahn, M. C. Flemings, B. Ilschner, E. J. Kramer, S. Mahajan,P. Veyssiere. United Kingdom: Elsevier Science, 2001. 10388 p.328. Hashmi S. Reference module in materials science and materials Engineering.United Kingdom: Elsevier Science Ltd., 2016. 798 p.329. Dobrovinskaya E. R., Lytvynov L. A., Pishchik V. Sapphire: material, manufacturing, applications. United Stated of America: Springer, 2010. 362 p.163330. Zhu Z., Brown T. Full-vectorial ҥnite-diference analysis of microstructuredoptical ҥbers // Optics Express.
2002. Vol. 10, № 17. P. 853ҫ864.331. Lumerical Mode Solutions // https://www.lumerical.com/: Пакетпрограмм для электродинамического моделирования (дата обращения:15.05.2016 г.).332. Intermodal interference in a photonic crystal ҥbre / D. Kacik [et al.] //Optics Express. 2004.
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