Prof. Dr. Sergiy TARAPOV
Fizik

Sergiy TARAPOV
Telefon
(262) 605 13 14
E-Posta
sergiy.tarapov@gtu.edu.tr
Ofis
D Blok, 203
Çalışma alanları
Elektromanyetizma, Manyetik Radyospektroskopi, Metamalzemeler, Mikrodalgalar, Katı Hal Fiziği, Düşük Sıcaklık Fiziği
Detaylı özgeçmiş
SERGIY_TARAPOV_ARBIS_OZGECMIS_20230315.pdf

LIST OF MAIN PAPERS of Sergiy TARAPOV
for 2014-2024

1. Electronically controlled left-handed metamaterial based on memristor/ferrite multilayer at microwaves, Aleksey Girich, Sinan Kazan, Bulat Rameev, and Sergey Tarapov, Appl. Phys. Lett., 2024, 125, 011701(1-6); doi:10.1063/5.0204174;https://doi.org/10.1063/5.0204174
2. Existence of edge modes in periodic microstrip transmission line, Aleksey Girich, Liubov Ivzhenko, Ganna Kharchenko, Sergey Polevoy, Sergey Tarapov, Maciej Krawczyk & Jarosław W. Kłos, Scientifc Reports, 2024, 14:16477(1-11), https://doi.org/10.1038/s41598-024-67610-9 , https://www.nature.com/articles/s41598-024-67610-9.pdf (as a pdf)
3. Enhancement of photon-magnon coupling strength by inverted split-ring resonator at GHz, A.Girich, S.Nedukh, S.Polevoy, K. Sova, S. Tarapov, A. Vakula, AIP Advances, 2024, v.14(2), p.025138(1-6); https://doi.org/10.1063/5.0187796 DOI: 10.1063/5.0187796
4. Special features of low-temperature microwave ferromagnetic resonance in nanometer ferrite layer patterned by macroporous silicon substrate, A.S.Vakula, S.Yu.Polevoy, K.Yu.Sova, S.V.Nedukh, A.A. Girich, and S.I. Tarapov, Low Temp. Phys. 49, 467 (2023); https://doi.org/10.1063/10.0017591.
5. Enhancement of the microwave photon-magnon coupling strength for a planar fabricated resonator, Aleksey Girich, Sergiy Nedukh, Sergey Polevoy, Kateryna Sova, Sergey Tarapov, Arthur Vakula, Scientific Reports, 2023, 13, p.924(1-8). https://doi.org/10.1038/s41598-022-27285-6, https://www.nature.com/articles/s41598-022-27285-6
6. Manipulation Over Surface Waves in Bilayer Hyperbolic Metasurfaces: Topological Transition and Multidirectional Canalization, A. Girich, L. Ivzhenko, A. Hrinchenko, S. Tarapov, and O. Yermakov, IEEE Microwave and Wireless Components Letters, 2022 1, PP(99):1-4, https://ieeexplore.ieee.org/document/9931333, 10.1109/LMWC.2022.3215016
7. Experimental observation of tunable Wood type resonances in an all-ferrodielectric periodical metasurface, L.I. Ivzhenko, S.Yu. Polevoy, S.I. Tarapov, V.V. Yachin, K. Kurselis, R. Kiyan, and B.N. Chichkov, Opt. Lett., 2020,45(19), 5514-5517  https://ieeexplore.ieee.org/document/9931333, 10.1109/LMWC.2022.3215016
8. Low-temperature ferromagnetic resonance in bare and SiO2 coated La0.775Sr0.225MnO3 Nanoparticles, K.Yu. Sova, A.S. Vakula, T.V. Kalmykova, S.I. Tarapov, S.I. Petrushenko, A.G. Belous, and S.O. Solopan, Cite as: Fiz. Nizk. Temp. 48, 372–377 (April 2022); https://doi.org/10.1063/10.0009738
9. Experimental Verification of Faraday Rotation Enhancement by All-ferrodielectric Metasurface, Vladimir V. Yachin, Sergey Yu. Polevoy, Liubov I. Ivzhenko, Sergey I. Tarapov, and Mark I. Nakhimovych, Journal of the Opt. Soc. of Am. B (JOSA B:Optical Physics), 2019, v.36(2), p.261-266. https://doi.org/10.1364/OL.402936 DOI: 10.1364/OL.402936
10. Impact of External DC Magnetic Bias Field and Frequency on the Bistability Features of a Non-linear Microwave Meta-atom, Aleksey A. Girich, and Sergey I. Tarapov, PIERL, 2019, v.82, p.81-87.
11. Defect Mode Tuning in Two-Dimensional Band-Gap Wire Structure in the Millimeter Waveband, Liubov I. Ivzhenko, Eugene N. Odarenko, Daria I. Yudina, and Segey I. Tarapov, Progress in Electromagnetics Research M (PIERM), 2019, v.82, p.167–173. doi: 10.2528/PIERM19020402 
12. Controlling Surface States of Planar Metamaterial Based on Moire Effect, Sergey Yu. Polevoy, and Sergey I. Tarapov, Progress in Electromagnetics Research M (PIERM), 2019, v.84, p.187–195.
13. Low temperature ferromagnetic resonance in bare and SiO2 coated La0.775Sr0.225MnO3 nanoparticles, Sova K. Yu., Vakula A. S., Tarapov S. I., Pertushenko S. I., Belous A. G., Solopan S. O. Low Temperature Physics 2022, Vol. 48, No. 4, pp. 372–377
14. Analysis of low-temperature FMR spectra of Fe3O4 and ZnFe2O4 nanoparticles synthesized usingorganic molecules, K. Yu. Sova, A. S. Vakula, S. I. Tarapov, A. G. Belous, S. O. Solopan Low Temperature Physics, 2021, Vol. 47, Issue 3, P. 241 –247.DOI: 10.1063/10.0003522
15. Magnetic, FMR and mössbauer studies of nanocrystalline greigite, Mariia Pashchenko, Pavel Veverka, Tomáš Kmječ, Ondřej Kaman, Lenka Kubíčková, Jaroslav Kohout, Mariana Klementová, Olha Kravchuk, Arthur Vakula, Sergey Tarapov, Jiří Hejtmánek, Karel Knížek, Journal of Alloys and Compounds, 2021 ,857, 157569(1-9).
16. Analysis of low-temperature FMR spectra of Fe3O4 and ZnFe2O4 nanoparticles synthesized using organic molecules K.Yu. Sova, A.S. Vakula, and S.I. Tarapov, A.G. Belous and S.O. Solopan, Low Temperature Physics, 2021, v. 47(3), pp. 241–247
17. Experimental observation of tunable Wood type resonances in an all-ferrodielectric periodical metasurface, L.I. Ivzhenko, S.Yu. Polevoy, S.I. Tarapov, V.V. Yachin, K. Kurselis, R. Kiyan, and B.N. Chichkov, Opt. Lett., 2020,45(19), 5514-5517 https://doi.org/10.1364/OL.402936
18. A Technique for Non-Contact Identification of Liquids in Closed Containers Using Microwave Planar Metamaterial, S.Y. Polevoy, A.S. Vakula, S.V. Nedukh, and S.I. Tarapov, Radio Science Bulletin, No 371, December 2019, 53-62.
19. Experimental observation of tunable Wood type resonances in an all-ferrodielectric periodical metasurface, L.I. Ivzhenko, S.Yu. Polevoy, S.I. Tarapov, V.V. Yachin, K. Kurselis, R. Kiyan, and B.N. Chichkov, Opt. Lett., 2020,45(19), 5514-5517
20. Impact of External DC Magnetic Bias Field and Frequency on the Bistability Features of a Non-linear Microwave Meta-atom, Aleksey A. Girich, and Sergey I. Tarapov, PIERL, 2019, v.82, p.81-87.
21. Defect Mode Tuning in Two-Dimensional Band-Gap Wire Structure in the Millimeter Waveband, Liubov I. Ivzhenko, Eugene N. Odarenko, Daria I. Yudina, and Segey I. Tarapov, Progress in Electromagnetics Research M (PIERM), 2019, v.82, p.167–173.
22. Controlling Surface States of Planar Metamaterial Based on Moire Effect, Sergey Yu. Polevoy, and Sergey I. Tarapov, Progress in Electromagnetics Research M (PIERM), 2019, v.84, p.187–195 doi:10.2528/PIERM19060708.
23. Experimental Verification of Faraday Rotation Enhancement by All-ferrodielectric Metasurface, Vladimir V. Yachin, Sergey Yu. Polevoy, Liubov I. Ivzhenko, Sergey I. Tarapov, and Mark I. Nakhimovych, Journal of the Opt. Soc. of Am. B (JOSA B:Optical Physics), 2019, v.36(2), p.261-266.
24. Binding Parameters of Magnetite Nanoparticles Interaction With Anticancer Drug Doxorubicin, Ekaterina G. Bereznyak, Evgen V. Dukhopelnikov, Daryna A. Pesina, Natalia A. Gladkovskaya, Arthur S. Vakula, Tatyana D. Kalmykova, Sergey I. Tarapov, Stanislav D. Polozov, Nikolay V. Krasnoselsky, Anatoliy G. Belous, Sergey A. Solopan, BioNanoScience, June 2019, 9(2), p.406-413.
25. Electron Spin Resonance and Magnetic Phase Transitions in Manganite Perovskite La0.78Sr0.22MnO3, Synthesized by the Solid-Phase Reaction Method, T. Kalmykova, A. Vakula, S. Nedukh, S. Tarapov, A. Belous, V. Krivoruchko, R. Sukhov, Functional Materials, 2018, v.25, N 2, p. 241-245.
26. Mechanically Tunable Wire Medium Metamaterial in the Millimeter Wave Band, L. Ivzhenko, E. Odarenko, and S.I. Tarapov, PIER Letters, 2016, v. 64, p. 93-98.doi: https://doi.org/10.2528/PIERL16090903
27. Resonant Response in Mechanically Tunable Metasurface Based on Crossed Metallic Gratings with Controllable Crossing Angle, V. Yachin, L. Ivzhenko, S. Polevoy, and S. Tarapov, Appl. Phys. Lett., 2016, v.109, pp.221905 (1-4).
28. Manipulation of One-Dimension Photonic Crystal Spectrum via Perforated Silicon Slab, B. Chernyshov and S.I. Tarapov, PIER Letters, 2016, v.62, pp. 133-139.
29. Microwave Loss in Low-Absorption Diamond-Like Materials at 1 K<t30. Gyrotropic Metamaterials and Polarization Experiment in the Millimeter Waveband, S.I. Tarapov, S.Yu. Polevoy, N.N. Beletski, in "Contemporary Optoelectronics: Materials, Metamaterials and Device Applications". Editors: O. Shulika, I. Sukhoivanov, "Springer Series in Optical Sciences", v. 199, p. 115-129, 2016. ISBN: 978-94-017-7314-0 (Print) 978-94-017-7315-7 (Online).
31. Magnetoresonance properties of manganite La1 xSrxMnO3 (x = 0.15; 0.225; 0.3; 0.45; 0.6), Kalmykova T.V.; Nedukh S.V.; Polevoy S.Yu.; Kharchenko A.A.; Tarapov S.I.; Belozorov D.P.; Pogorily A.N.; Polek T.I.; Pashchenko V.A.; Bludov O.M., Low Temperature Physics, 2015, v.41, N.4, p. 273-278.
31. Magnetic Field Driven Surface Electromagnetic States in the Graphene Antiferromagnetic Photonic Crystal System, Yu.O. Averkov, S.I. Tarapov, V.M. Yakovenko, and V.A. Yampolsky, JETP, 2015, v.120, N4, p.702-709.
32. Study of magnetoelastic and magnetocrystalline anisotropies in CoxNi1−x nanowire arrays, Anastasiia Moskaltsova, Mariana P. Proenca, Sergey V. Nedukh, Cґelia T. Sousa, Arthur Vakula, Gleb N. Kakazei, Sergey I. Tarapov, Joa P. Araujoc, Journal of Magnetism and Magnetic Materials, 2015, v.374, p.663-668.
34. Magnetoresonance properties of manganite-perovskite nanocomposite with Bi2223-superconductor additives at Т=300 К, 4.2 К, T.V. Kalmykova, S.Yu Polevoy, S.V. Nedukh, S.I. Tarapov, V.Yu. Tarenkov, Functional materials, 2014, v.21, N 3, p.302-306.
35. A Planar Photonic Crystal-Based Resonance Cell for Ferromagnetic Resonance Spectrometer, A.A. Girich, M.A. Miliaiev, S.V. Nedukh, A. Shuba, S.I. Tarapov, Telecommunications and Radio Engineering, 2014, v. 73, N8, p.749-755.
36. Study of Spectral and Polarization Characteristics of Layered Chiral Media, N.N. Beletskii, S.Y. Polevoy, S.I. Tarapov, Radiophysics and Electronics, 2014, v. 5(19), №. 3, pp.3-8.
37. Electromagnetic Wave Propagation in the Finite Periodically Layered Chiral Medium, N.N. Beletskii, S.Yu. Polevoy, and S.I. Tarapov, Progress in Electromagnetics Research M (PIERM), 2014, v.38, pp. 185-192.
38. Features of the Magnetophotonic Crystal Spectrum in the Vicinity of Ferromagnetic Resonance G.O. Kharchenko, S.I. Tarapov, T.V. Kalmykova, Journal of Magnetism and Magnetic Materials, 2014, v.373, p. 30-32.
39. Defect Mode Formation in the Spectrum of a Spatially Bounded Photonic Finite-Size Crystal, A.A. Kharchenko and S.I. Tarapov, Telecommunications and Radio Engineering, 2014, v. 73, N6, p.547-553.
40. Surface electromagnetic states in the photonic crystal–ferrite–plasma-like medium structure, Yu.O. Averkov, S.I. Tarapov, A.A. Kharchenko, and V.M. Yakovenko, Low Temp. Phys.(AIP Publ.) 2014, 40, p. 667-674
41. Microwave Analogue of Tamm States in Periodic Chain-Like Structures, D.P. Belozorov, A. Girich, S.V. Nedukh, A.N. Moskaltsova, and S.I. Tarapov, Progress in Electromagnetics Research Letters (PIERL), 2014, v.46, p. 7-12.
41. Left-Handed Properties of Manganite-Perovskites La1-XSrxMnO3 at Various Dopant Concentrations, D.P. Belozorov, A.A. Girich, S.I. Tarapov, A.M. Pogorily, A.I. Tovstolytkin, A.G. Belous, and S.A. Solopan, AIP Advances, 2014, v.4, p. 037116 (1-7).
42. Extra-Low Power Consumption Amplifier Based on HEMT in Unsaturated Mode for Use at Subkelvin Ambient Temperatures, A.M. Korolev, V.M. Shulga, S.I. Tarapov, Cryogenics, 2014, v.60, p.76–79 https://doi.org/10.1016/j.cryogenics.2014.01.012</t

BOOKS
1. S.I. Tarapov, Yu. P. Machekhin, A.S. Zamkovoy. Magnetic Resonance for Optoelectronic Materials Investigating. Kharkov: Collegium, 2008, 144 p., ISBN 978-966-8604-42-3.
2. Physical Principles of High Frequency Electromagnetic Compatibility. S. Tarapov, Publ. Center of GIT Gebze Institute of Technology (GYTE Baski ve Foto Film Merkezi), ISBN 975-8316-08-7, Gebze, Turkey, 2002, 112p..
3. Basic of High-Frequency Electron Spin Resonance Experiment at Very Low Temperatures, Lecture Notes, S. Tarapov, Publ. Center of GIT Gebze Institute of Technology (GYTE Baski ve Foto Film Merkezi), ISBN 975-8316-07-9, Gebze, Turkey, 2000, 93p..


CHAPTERS in BOOKS

4. Hybrid Quantum Transduction Systems Based on Magnonic Materials. S. Kazan, N.G. Saribas, S.Ç. Yorulmaz, M. Maksutoglu, E. Avinca, F.Yıldız, S.I. Tarapov & B. Rami, Book Chapter in book: Vladymyrskyi I., Hillebrands B., Serha A., Makarov D., Prokopenko O. (eds), Functional Magnetic and Spintronic Nanomaterials. NATO-2023, NATO Science for Peace and Security Series B: Physics and Biophysics. Springer, Dordrecht, (2024) pp.207–219, https://doi.org/10.1007/978-94-024-2254-2_10
5. Magnetic Nanocomponents for Frequency Converting in Quantum Computing Technologies, A.A. Girich, S.V. Nedukh, S.Y. Polevoy, B. Rami, K.Y. Sova, S.I. Tarapov & A.S. Vakula, Book Chapter in book: Vladymyrskyi I., Hillebrands B., Serha A., Makarov D., Prokopenko O. (eds) Functional Magnetic and Spintronic Nanomaterials. NATO-2023. NATO Science for Peace and Security Series B: Physics and Biophysics. Springer, Dordrecht, (2024), pp 197–206 https://doi.org/10.1007/978-94-024-2254-2_9
6. Gyrotropic Metamaterials and Polarization Experiment in the Millimeter Waveband, S.I. Tarapov, S.Yu. Polevoy, N.N. Beletski, in book "Contemporary Optoelectronics: Materials, Metamaterials and Device Applications". Editors: O. Shulika, I. Sukhoivanov, Springer Series in Optical Sciences, v. 199, p. 115-129, 2016. ISBN: 978-94-017-7314-0 (Print) 978-94-017-7315-7 (Online).
7. Experimental Analysis of Metamaterials’ Spectra to Design Tunable THz-GHz Passive Devices, A. Girich, M.Khodzitsky, S. Nedukh, S. Tarapov, p.159–164, in book “Terahertz and Mid Infrared Radiation Generation, Detection and Applications”. Edited by M. Pereira, O. Shulika, NATO Science for Peace and Security Series, Springer, ISBN 978-94-007-0771-9, 2011, 202p
8. Left-Handed Properties of Composite Ferrite/Semiconductor Medium Oriented in Staggered Order, A. Girich, S. Tarapov, p.43-48, in book “Terahertz and Mid Infrared Radiation Generation, Detection and Applications” Edited by M. Pereira, O. Shulika, NATO Science for Peace and Security Series, Springer, ISBN 978-94-007-0771-9, 2011, 202p..

PhD Thesis

1. K. SOVA (Thesis Author), S. TARAPOV (Thesis Supervisor), Electromagnetic properties of magnetic nanoparticles under thermal deformations, IRE NASU, UKRAINE, 2023
2. A. VAKULA (Thesis Author), S. TARAPOV (Thesis Supervisor), The electromagnetic properties of nanomagnets in the centimeter and the millimeter wavebands, Institute for Radiophysics and Electronics National Academy of Science of Ukraine (IRE NASU), UKRAINE, 2017.
3. L. IVZHENKO (Thesis Author) , S. TARAPOV (Thesis Supervisor), The spectral properties of anisotropic wire medium metamaterials at microwaves, 2017, IRE NASU, UKRAINE, 2017.
4. S. POLEVOY (Thesis Author), S. TARAPOV (Thesis Supervisor), The electromagnetic properties of uniaxial gyrotropic metamaterials in the millimeter waveband, IRE NASU, UKRAINE, 2015.
5. G. KHARCHENKO (Thesis Author), S. TARAPOV (Thesis Supervisor), Spectral properties of inhomogeneous spatially periodic structures in the millimeter waveband, IRE NASU, UKRAINE, 2014.
6. R. GOLOVASCHENKO (Thesis Author), S. TARAPOV (Thesis Supervisor), Whispering gallery mode axially symmetrical resonators for microwave low-temperature radiospectroscopy, IRE NASU, UKRAINE, 2014.
7. A.GIRICH (Thesis Author), S. TARAPOV (Thesis Supervisor), Spectral properties of metamaterials based on magnetic and semiconductor structures in the millimeter waveband, IRE NASU, UKRAINE, 2013.
8. M. KHODZITSKY (Thesis Author), S. TARAPOV (Thesis Supervisor), Excitation of surface electromagnetic oscillations on the boundary of metamaterials in millimeter waveband, IRE NASU, UKRAINE, 2009.
9. T. KALMYKOVA (Thesis Author), S. TARAPOV (Thesis Supervisor), Magnetic resonance features of granular low-dimensional nanostructures, IRE NASU, UKRAINE, 2009.
10. S. NEDUKH (Thesis Author), S. TARAPOV (Thesis Supervisor), Resonance and nonresonance interaction of millimeters waveband electromagnetic waves with magnetic nanostructures, IRE NASU, UKRAINE, 2008.
11. S. CHERNOVTSEV (Thesis Author), S. TARAPOV (Thesis Supervisor), Spectral properties of the one-dimensional magnetically controlled photonic crystals in the millimetre waveband , IRE NASU, UKRAINE, 2008.

More than 50 Ms. Thesis at Kharkiv National University of Radioelectronics (Kharkiv, Ukraine) and V.N.Karazin National University (Kharkiv, Ukraine)

  • Doktora: 1.Corresponding Member of the National Academy of Sciences of Ukraine (2015)
    2. Professor at the Department of Physical Fundamentals of Electronic Engineering (2005)
    3. Doctor of Physical and Mathematical Sciences (Dr.hab), Kharkiv, Ukraine (1994);
  • Yüksek lisans: Dr.Hab in Phys and Math (1994);
    PhD in Phys and Math (1987);
  • Lisans: Graduated from Kharkiv State University (MS), Kharkiv, Ukraine (1976)
1. Ukrayna Ulusal Bilimler Akademisi Sorumlu Üyesi (2015)
2. Elektronik Mühendisliğinin Fiziksel Temelleri Bölümü'nde Profesör (2005)