Дорофеев Игорь Олегович
Публикации
Общее число записей - 34
21 | Dorofeev I.O., Suslyaev V.I., Karzanova T.S., Moseenkov S.I., Kuznetsov V.L. The Usage of Conducting Wire Sphere Models for the Estimation of Electrophysical Properties of Multiwalled Carbon Nanotube Spherical Aerogels //Physica Status Solidi B: Basic Research. 2018. Vol. 255, № 12. P. 1800193-1-1800193-7. |
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22 | Badin A.V., Bessonov V.V., Dorozhkin K.V., Dorofeev I.O., Le B.H., Dunaevskii G.E. Terahertz Resonator Diagnostics Of Filamentary Dielectric Objects //43 International Conference on Infrared, Millimeter, and Terahertz Waves (IRMMW-THz), 9-14 september 2018, Nagoya. [S. l.]: IEEE Computer Society, 2018. P. 1-2. https://ieeexplore.ieee.org/document/8510310. |
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23 | Dorofeev I.O., Dunaevskii G.E., Badin A.V., Dorozhkin K.V., Bessonov V.V., Khodovitskiy S.O. Local quasioptical resonator diagnostics of semiconductor wafers //MATEC Web of conferences. 2018. Vol. 155. P. 01051-1-01051-7. |
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24 | Dunaevsky G.E., Dorofeev I.O. From Micro- to Nano-objects and from Giga- to Terahertz Frequency Range: Quasi-optical Resonant Diagnostics of Objects //Semiconductor Nanotechnology : advances in information and energy processing and storage. Cham: Springer International Publishing AG, 2018. P. 169-197. |
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25 | Dorofeev I.O., Dunaevskii G.E., Suslyaev V.I., Minin I.V., Minin O.V. Small-sized body influence on the quality factor increasing of quasioptical open resonator //Optical and Quantum Electronics. 2017. Vol. 49, № 3. P. 355-1-355-10. |
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26 | Krasnikov D.V., Dorofeev I.O., Smirnova T.E., Suslyaev V.I., Kazakova M.A., Moseenkov S.I., Kuznetsov V.L. Electromagnetic Interaction Between Spherical Aerogels of Multi-Walled Carbon Nanotubes //Physica Status Solidi B: Basic Research. 2017. Vol. 254, № 00. P. 1700256-1-1700256-6. |
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27 | Bessonov V.V., Dorozhkin K.V., Dorofeev I.O. Research of a possibility of resonator diagnostics of thin filamentary objects in a low part of the terahertz frequency band // 18th International Conference of Young Specialists on Micro/Nanotechnologies and Electron Devices EDM 2017 : proceedings Erlagol, 29 june - 3 july 2017. Novosibirsk: NSTU publisher, 2017. P. 50‒53. DOI: 10.1109/EDM.2017.7981706 |
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28 | Dorofeev I.O., Dunaevskii G.E. Resonance characteristics for microwire pieces as elements of composite materials // Russian Physics Journal. 2017. Vol. 59, № 12. P. 2080‒2086. DOI: 10.1007/s11182-017-1017-7 |
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29 | Kanygin M.A., Sedelnikova O.V., Korovin E.Y., Suslyaev V.I., Dorofeev I.O., Bulusheva L.G., Okotrub A.V. Electromagnetic properties of polymers based composite materials with various carbon inclusions //Proceedings of the 2016 Russia-Japan confeence advanced materials: synthesis, processing and properties of properties of nanostructures. Novosibirsk, 2016. P. 78-79. |
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30 | Kuleshov G.E., Dorofeev I.O., Fayzulin R.R. Microwave Electromagnetic Properties of Composite Radiomaterials Based on Magnetic Microwires //Proceedings of 17th International Conference of Young Specialists on Micro/Nanotechnologies and Electron Devices. Novosibirsk: IEEE Computer Society, 2016. P. 52-55. URL: http://ieeexplore.ieee.org/document/7538690/. |
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31 | Dorofeev I.O., Dunaevskii G.E. On the efficiency of application of quasi-optical resonator technique to investigation of the electrophysical properties of materials // Russian Physics Journal. 2015. Vol. 57, № 10. P. 1388‒1391. DOI: 10.1007/s11182-015-0393-0 |
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32 | Dorofeev I.O., Smirnova T.E., Suslyaev V.I. The study of aerogels on the basis of carbon nanotubes in the open microwave resonator //24-я Международная Крымская конференция. СВЧ-техника и телекоммуникационные технологии. Материалы конференции. Том I. Севастополь, 2014. P. 821-822. |
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33 | Дорофеев И.О., Дунаевский Г.Е. К вопросу об эффективности применения квазиоптической резонаторной методики исследований электрофизических свойств материалов //Известия вузов. Физика. 2014. Т. 57, № 10. С. 83-86. |
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34 | Dorofeev I.O., Dunaevskii G.E. A two-layered thin cylinder in an open microwave resonator // Russian Physics Journal. 2013. Vol. 56, № 1. P. 49‒54. |
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