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Publications in Math-Net.Ru |
Citations |
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2024 |
1. |
I. A. Faniayeu, A. L. Samofalov, I. V. Semchenko, S. A. Khakhomov, A. Y. Kravchenko, Mengmeng Li, “Metasurface based on single-turn planar spirals with non-reflective absorber property in the microwave range”, PFMT, 2024, no. 3(60), 38–43 |
2. |
A. L. Samofalov, I. A. Fanyaev, P. V. Somov, I. V. Semchenko, A. A. Kovalev, Hui Chu, “Designing a phase manipulator using metamaterials based on paired planar spirals”, PFMT, 2024, no. 3(60), 32–37 |
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2023 |
3. |
I. A. Fanyaev, D. V. Slepenkov, A. Yu. Kravchenko, I. V. Semchenko, J. Li, S. A. Khakhomov, “The thermally controlled terahertz hyperlens”, PFMT, 2023, no. 3(56), 32–37 |
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2022 |
4. |
S. A. Khakhomov, A. L. Samofalov, Yu. V. Nikitjuk, I. V. Semchenko, I. Y. Aushev, “Optimization of parameters of absorbing metamaterials based on $\Pi$-shaped elements”, PFMT, 2022, no. 3(52), 56–60 |
5. |
A. P. Balmakou, S. A. Khakhomov, I. V. Semchenko, J. Li, J. Wang, W. Song, “Modeling, creating and experimental study of metasurfaces covering objects of complex shape”, PFMT, 2022, no. 1(50), 7–13 |
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2021 |
6. |
A. P. Balmakou, D. V. Slepiankou, S. A. Khakhomov, I. V. Semchenko, J. Wang, W. Song, “Creation and experimental study of metasurface models covering complex objects using $\mathrm{3D}$ printing and milling”, PFMT, 2021, no. 2(47), 14–22 |
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2019 |
7. |
J. Zhao, Y. Song, L. Wang, I. V. Semchenko, A. L. Samofalov, “Design of a multi-layer structure of a bifilar helical antenna”, PFMT, 2019, no. 3(40), 49–52 |
8. |
I. V. Semchenko, S. A. Khakhomov, A. L. Samofalov, I. A. Faniyaeu, I. S. Mikhalka, Y. Song, S. Fan, J. Wang, “The development of a double-sided nonreflecting microwaves absorber based on the metamaterials with rectangular omega elements”, PFMT, 2019, no. 3(40), 26–32 |
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2018 |
9. |
A. P. Balmakov, S. A. Khakhomov, N. A. Aleshkevich, I. V. Semchenko, D. G. Stavenga, J. Wang, “Parametric modeling of photonic crystals in feathers of birds”, PFMT, 2018, no. 3(36), 23–27 |
10. |
S. A. Khakhomov, I. V. Semchenko, A. P. Balmakov, A. L. Samofalov, “Research on the fundamental and applied aspects of electrodynamics, modern materials science, physics of nano- and metamaterials, technology of coating in F. Sñorina Gomel State University”, PFMT, 2018, no. 3(36), 7–18 |
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2015 |
11. |
M. A. Podalov, I. V. Semchenko, S. A. Khakhomov, “Creating of planar metamaterials based on $\Omega$-elements with optimal parameters by using the vacuum-plasma technologies”, PFMT, 2015, no. 2(23), 13–17 |
12. |
I. A. Faniayeu, I. V. Semchenko, S. A. Khakhomov, A. L. Samofalov, “Uniaxial electrically thin rotator of polarization of electromagnetic waves”, PFMT, 2015, no. 1(22), 32–37 |
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2014 |
13. |
Qian Songsong, V. A. Bannyi, A. L. Samofalov, I. V. Semchenko, S. A. Khakhomov, “Absorbers of microwaves based on polymer composites and chiral structures”, PFMT, 2014, no. 4(21), 40–45 |
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14. |
S. D. Barsukov, A. P. Balmakou, I. V. Semchenko, S. A. Khakhomov, T. A. Dzerzhauskaya, A. P. Slobozhanyuk, A. E. Krasnok, P. A. Belov, “Experimental studies of the directional antenna based on helical elements”, PFMT, 2014, no. 3(20), 16–20 |
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2013 |
15. |
A. L. Samofalov, I. A. Faniayeu, I. V. Semchenko, S. A. Khakhomov, “Polarization transformers of electromagnetic waves based on composite media with a helical structure”, PFMT, 2013, no. 3(16), 34–38 |
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16. |
A. P. Balmakov, I. V. Semchenko, S. A. Khakhomov, M. Nagatsu, “Microwave circular polarizer based on bifilar helical particles”, PFMT, 2013, no. 1(14), 7–12 |
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2011 |
17. |
I. V. Semchenko, S. A. Khakhomov, A. L. Samofalov, S. A. Tretyakov, “Advantages of artificial low-reflecting structures based on the optimal helices at the refraction and absorption of electromagnetic waves”, PFMT, 2011, no. 4(9), 64–67 |
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18. |
A. L. Samofalov, I. V. Semchenko, S. A. Khakhomov, “Simulation and investigation of artificial anisotropic structures with high chirality in the microwave range”, PFMT, 2011, no. 3(8), 28–31 |
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2009 |
19. |
I. V. Semchenko, S. A. Khakhomov, A. L. Samofalov, “The use of pair helices of the optimum form for creation of weak reflecting coatings in the UHF range”, PFMT, 2009, no. 1(1), 33–39 |
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