Photonic structures in microwave band and their application to measurement of parameters of composites with inclusions of carbon nanotubes and liquid dielectrics


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Abstract

The percularities of interaction of electromagnetic radiation of microwave band with mirostrip photonic structures as well as methods for measurement of composites with inclusions of carbon nanotubes and liquid dielectrics based on the inverse problem solving from the transmission spectra of microwave radiation interacting with microstrip photonic structure with sample under investigation acting as an irregularity in the photonic structure are descried. From the dependency of the complex dielectric permittivity of the composite on their volume concentration of carbon nanotubes the dielectric permittivity and average value of volume conductivity have been determioned in a range of temperatures.

References

  1. Donor and acceptor modes in photonic band structure / E. Yablonovitch [et al.] // Phys. Rev. Lett. 1991. V. 67. № 24. P. 3380-3383.
  2. Kuriazidou C.A., Contopanagos H.F., Alexopolos N.G. Monolithic waveguide filters using printed photonic-bandgap materials // IEEE Transactions on microwave theory and techniques. 2001. V. 49. № 2. P. 297-306.
  3. Measurement of the metal nanometer layer parameters on dielectric substrates using photonic crystals based on the waveguide structures with controlled irregularity in the microwave band / D.A. Usanov [et al.] // Proc. of 37rd European Microwave Conference. Munich, Germany. 8-12th October 2007. P. 198-201.
  4. Tae-Yeoul, Kai Chang. Uniplanar one-dimensional photonic-bandgap structures and resonators // IEEE Transactions on Microwave Theory and Techniques. 2001. V. 49. № 3. P. 549-553.
  5. Гуляев Ю.В., Никитов С.А. Фотонные и магнитофотонные кристаллы - новая среда для передачи информации // Радиотехника. 2003. № 8. С. 26-30.
  6. Беляев Б.А., Волошин А.С., Шабанов В.Ф. Исследование микрополосковых аналогов полосно-пропускающих фильтров на одномерных фотонных кристаллах // Радиотехника и электроника. 2006. Т. 51. № 6. С. 694-701.
  7. Методика измерения электропроводности нанометровых металлических пленок в слоистых структурах по спектрам отражения электромагнитного излучения / Ю.А. Чаплыгин [и др.] // Известия вузов. Электроника. 2006. № 6. С. 27-35.
  8. Measurements of thickness of metal films in sandwich structures by the microwave reflection spectrum / D.A. Usanov [et al.] // Proc. of 36rd European Microwave Conference. Manchester, UK. 10-15th September 2006. P. 921-924.
  9. Измерения толщины нанометровых слоев металла и электропроводности полупроводника в структурах металл-полупроводник по спектрам отражения и прохождения электромагнитного излучения / Д.А. Усанов [и др.] // ЖТФ. 2006. Т. 76. Вып. 5. С. 112-117.
  10. Sato T., Buchner R. Dielectric relaxation processes in ethanol/water mixtures // J. Phys. Chem. A. 2004. V. 108. № 23. P. 5007-5015.
  11. Carbon nanotube composites for broadband microwave absorbing materials / A. Saib [et al.] // IEEE Trans. on MTT. 2006. V. 54. № 6. P. 2745-2754.
  12. Effect of short carbon fibers and MWCNTs on microwave absorbing properties of polyester composites containing nickel-coated carbon fibers / I.M. De Rosa [et al.] // Composites Science and Technology. 2010. V. 70. P. 102-109.
  13. Наполнители для полимерных композиционных материалов. Спр. пособие / под ред. Г.С. Каца и Д.В. Милевски. М.: Химия, 1981. 736 с.

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Copyright (c) 2010 Usanov D.A., Skripal A.V., Abramov A.V., Bogolubov A.S., Romanov A.V., Kulikov M.Y., Ponomarev D.V.

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