Диссертация (1025280), страница 25
Текст из файла (страница 25)
6, № 4. P. 576ҫ582.Highly accurate in vivo terahertz spectroscopy of healthy skin: variation ofrefractive index and absorption coeicient along the human body / K. I. Zaytsev [et al.] // IEEE Transactions on Terahertz Science and Technology.2015. Vol. 5, № 5. P. 817ҫ827.Non-destructive evaluation of polymer composite materials at the manufacturing stage using terahertz pulsed spectroscopy / E.
V. Yakovlev, K. I. Zaytsev, I.N. Dolganova, S.O. Yurchenko // IEEE Transactions on TerahertzScience and Technology. 2015. Vol. 5, № 5. P. 810ҫ816.Terahertz spectroscopy of pigmentary skin nevi in vivo / K. I. Zaytsev [et al.] // Optics and Spectroscopy. 2015. Vol. 119, № 3. P. 404ҫ410.A method of studying spectral optical characteristics of a homogeneous medium by means of terahertz time-domain spectroscopy / K. I. Zaytsev [et al.] //Optics and Spectroscopy.
2015. Vol. 118, № 4. P. 552ҫ562.Yurchenko S. O., Zaytsev K. I. Spectroscopy of naҥon in terahertz frequencyrange // Journal of Applied Physics. 2014. Vol. 116, № 11. P. 113508.Accuracy of sample material parameters reconstruction using terahertzpulsed spectroscopy / K. I. Zaytsev [et al.] // Journal of Applied Physics.2014. Vol.
115, № 19. P. 193105.14273. О возможности диагностики онкологических заболеваний кожи спомощью терагерцовой импульсной спектроскопии / К. И. Зайцев [идр.] // Онкохирургия. 2014. Т. 6, № 2ҫ4. С. 23ҫ28.74. Invariant embedding technique for medium permittivity proҥle reconstruction using terahertz time-domain spectroscopy / K. I. Zaytsev [et al.] //Optical Engineering. 2013. Vol. 52, № 6.
P. 068203.75. In vivo spectroscopy of healthy skin and pathology in terahertz frequencyrange / K. I. Zaytsev [et al.] // Journal of Physics: Conference Series. 2015.Vol. 584, № 1. P. 012023.76. An impact of multiple wave reѕections in a ѕat sample on material parameterreconstruction using THz pulsed spectroscopy / K. I. Zaytsev [et al.] //Journal of Physics: Conference Series. 2015. Vol.
584, № 1. P. 012005.77. Wavelet-domain de-noising technique for THz pulsed spectroscopy /N. V. Chernomyrdin, K. I. Zaytsev, A. A. Gavdush [et al.] // Proceedingsof SPIE. 2014. Vol. 9216. P. 921611.78. Numerical simulation of terahertz-wave propagation in photonic crystalwaveguide based on sapphire shaped crystal / K. I. Zaytsev [et al.] // Journalof Physics: Conference Series.
2016. Vol. 673, № 1. P. 012001.79. A comparison of terahertz pulsed spectroscopy and backward-wave oscillatorspectroscopy / K. I. Zaytsev [et al.] // Journal of Physics: Conference Series.2014. Vol. 536, № 1. P. 012009.80. An approach for automatic construction of the wavelet-domain de-noisingprocedure for THz pulsed spectroscopy signal processing / K. I. Zaytsev [et al.] // Journal of Physics: Conference Series. 2014. Vol.
486, № 1.P. 012034.81. Novel algorithm for sample material parameter determination using THztime-domain spectrometer signal processing / K. I. Zaytsev [et al.] // Journalof Physics: Conference Series. 2014. Vol. 486, № 1. P. 012018.82. Medical diagnostics using terahertz pulsed spectroscopy / K. I. Zaytsev [et al.] // Journal of Physics: Conference Series. 2014. Vol. 486, № 1.P. 012014.83. Novel technique for medium permittivity proҥle reconstruction using THz pulsed spectroscopy / K.
I. Zaytsev, N. V. Chernomyrdin,14384.85.86.87.88.89.90.91.V. I. Alekhnovich // Journal of Physics: Conference Series.2014.Vol. 486, № 1. P. 012010.Высокоточное восстановление спектральных оптических характеристиксреды с помощью терагерцовой импульсной спектроскопии /К. И. Зайцев [и др.] // Вестник Московского государственноготехнического университета имени Н.Э. Баумана. Серия: Естественныенауки. 2014. Т. 3, № 54. С. 69ҫ92.Восстановление профиля диэлектрической проницаемости среды спомощью терагерцовой спектроскопии / В. И. Алехнович, К.
И. Зайцев,В. Е. Карасик // Вестник Московского государственного техническогоуниверситета имени Н.Э. Баумана. Серия: Естественные науки. 2013.Т. 2, № 49. С. 50ҫ66.Исследованиевозможностииспользованиятерагерцовыхизображающихсистемдлямедицинскойдиагностики/К. И. Зайцев [и др.] // Вестник Московского государственноготехническогоуниверситетаимениН.Э.Баумана.Серия:Приборостроение.
2012. Т. 4., № 89. С. 114ҫ127.Экспериментальное обоснование возможности ранней диагностикикариозного поражения эмали зуба с помощью терагерцовойспектроскопии/С.И.Володарская,К.И.Зайцев,В. Е. Карасик [и др.] // Вестник Московского государственноготехническогоуниверситетаимениН.Э.Баумана.Серия:Приборостроение.
2013. Т. 2, № 91. С. 33ҫ47.Nichols E. F. A method for energy measurements in the infra-red spectrumand the properties of the ordinary ray in quartz for waves of great wavelength // Physical Review (Series I). 1897. Vol. 4. P. 297ҫ313.Rubens H., Nichols E. F. Heat rays of great wave length // Physical Review(Series I). 1897.
Vol. 4. P. 314ҫ323.Rubens H., Kurlbaum F. On the heat radiation of long wave-length emittedby black bodies at diferent temperatures // The Astrophysical Journal.1901. Vol. 14. P. 335.Glagolewa-Arkadiewa A. Short electromagnetic waves of wave-length up to82 microns // Nature. 1924. Vol. 113. P. 640ҫ640.14492. Глаголева-Аркадьева А. А. Новая шкала электромагнитных волн //Успехи физических наук. 1926.
Т. 6, № 3. С. 216ҫ241.93. Глаголева-Аркадьева А. А. Шкала частот и волн электромагнитныхколебаний // Успехи физических наук. 1936. Т. 16, № 4. С. 522ҫ529.94. Griiths P. R., De Haseth J. A., Winefordner J. D. Fourier transform infraredspectrometry. 2nd Edition. Hoboken, United States of America: WileyBlackwell, 2007. 560 p.95.
Fleming J. High-resolution submillimeter-wave fourier-transform spectrometry of gases // IEEE Transactions on Microwave Theory and Techniques.1974. Vol. 22, № 12. P. 1023ҫ1025.96. Mittleman D. Sensing with terahertz radiation. New York, United States ofAmerica: Springer-Verlag Berlin Heidelberg, 2003. 338 p.97. Submillimeter spectroscopy on OH+: the rotational transition at 1 THz /J. P.Bekooy [et al.] // The Journal of Chemical Physics. 1985.
Vol. 82, № 8.P. 3868ҫ3869.98. Optical properties of planar colloidal crystals: Dynamical difraction andthe scalar wave approximation / D. M. Mittleman [et al.] // The Journal ofChemical Physics. 1999. Vol. 111, № 1. P. 345ҫ354.99. Markelz A. G., Roitberg A., Heilweil E. J. Pulsed terahertz spectroscopyof DNA, bovine serum albumin and collagen between 0.1 and 2.0 THz //Chemical Physics Letters. 2000.
Vol. 320, № 1ҫ2. P. 42ҫ48.100. Terahertz vibration-rotation-tunneling spectroscopy of water clusters in thetranslational band region of liquid water / F. N. Keutsch [et al.] // TheJournal of Chemical Physics. 2001. Vol. 114, № 9. P. 3994ҫ4004.101. Submillimeter spectroscopic study of concentrated electrolyte solutions ashigh density plasma / T. Dodo [et al.] // The Journal of Chemical Physics.2002.
Vol. 116, № 13. P. 5701ҫ5707.102. Dielectric relaxation of electrolyte solutions using terahertz transmissionspectroscopy / M. L. T. Asaki [et al.] // The Journal of Chemical Physics.2002. Vol. 116, № 19. P. 8469ҫ8482.103. Protein dynamical transition in terahertz dielectric response /A. G. Markelz [et al.] // Chemical Physics Letters. 2007. Vol. 442, № 4ҫ6.P.
413ҫ417.145104. Protein dynamical transition does not require protein structure /Y. He [et al.] // Physical Review Letters. 2008. Vol. 101, № 17. P. 178103.105. Glancy P., Beyermann W. P. Dielectric properties of fully hydrated nucleotides in the terahertz frequency range // The Journal of ChemicalPhysics. 2010. Vol.
132, № 24. P. 245102.106. Dielectric relaxation change of water upon phase transition of a lipid bilayerprobed by terahertz time domain spectroscopy / D. H. Choi [et al.] // TheJournal of Chemical Physics. 2012. Vol. 137, № 17. P. 175101.107. Lipps F., Levy S., Markelz A. G. Hydration and temperature interdependence of protein picosecond dynamics // Physical Chemistry ChemicalPhysics. 2012.
Vol. 14, № 18. P. 6375ҫ6381.108. Optical measurements of long-range protein vibrations / G. Acbas [et al.] //Nature Communications. 2014. Vol. 5. P. 3076.109. Picosecond spectroscopy of semiconductors / D. H. Auston [et al.] // SolidState Electronics. 1978. Vol. 21, № 1. P. 147ҫ150.110. Dexheimer S. L. Terahertz spectroscopy: principles and applications. BocaRaton, United States of America: CRC Press, 2007.
300 p.111. Terahertz near-ҥeld nanoscopy of mobile carriers in single semiconductornanodevices / A. J. Huber [et al.] // Nano Letters. 2008. Vol. 8, № 11.P. 3766ҫ3770.112. Fire damage on carbon ҥber materials characterized by THz waves //N. Karpowicz [et al.] Proceedings of SPIE. 2006.
Vol. 6212. P. 62120G.113. Stoik C. D., Bohn M. J., Blackshire J. L. Nondestructive evaluation of aircraft composites using transmissive terahertz time domain spectroscopy //Optics Express. 2008. Vol. 16, № 21. P. 17039ҫ17051.114. Nondestructive testing of polymer composite materials using THz radiation / E. V. Yakovlev [et al.] // Journal of Physics: Conference Series. 2014.Vol. 486. P. 012008.115.
Non-invasive investigation of art paintings by terahertz imaging / E. Abraham [et al.] // Applied Physics A: Materials Science and Processing. 2010.Vol. 100. P. 585ҫ590.116. A continuous millimeter-wave imaging scanner for art conservation science /A. Younus [et al.] // Advances in Optical Technologies. 2011. Vol. 2011.P. 275682.146117. Jacobsen R. H., Mittleman D. M., Nuss M. C. Chemical recognition of gasesand gas mixtures with terahertz waves // Optics Letters.















