Sergiy V. Dukhopelnikov CV

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Vitae of Sergii V. Dukhopelnykov

IRE NASU, Vul. Proskury 12, Kharkiv 61085, Ukraine
Tel: +380-57-720-3782 (office)
E-mail: dukh.sergey[at]gmail.com

PERSONAL:
Date & Place of Birth: 1982, Kharkiv, Ukraine

EDUCATION and EMPLOYMENT: POSTS and TITLES

2022+	Guest Researcher, Institute of Electronics and Numerical Technologies, Universite de Rennes 1, Rennes, France thanks to PAUSE Program of Solidarity with Ukraine
2021	Title of Senior Researcher, Ministry of Education and Science, Ukraine
2019+	Senior Scientist, Laboratory of Micro and Nano Optics, Institute of Radio-Physics and Electronics NASU, Kharkiv (displaced after Feb. 2022; on leave)
2018+	P/t Associate Professor, School of Mathematics, V.N. Karazin Kharkiv National University
2018	Scientist, LMNO, IRE NASU, Kharkiv
2018	P/t scientist, LMNO, IRE NASU
2014-2018	Associate Professor, Dept. Mathematics, National Technical University "Kharkiv Polytechnic Institute"
2009-2014	Senior lecturer, Dept. Mathematics, National Technical University "KhPI"
2009	Ph.D. degree in Mathematical Modelling from the Institute of Problems of Machine Engineering NASU
2007-2009	Assistant lecturer, Dept. Mathematics, National Technical University "KhPI"
2004-2007	Ph.D. student in Mathematical Modelling, V. N. Karazin Kharkiv National University
1999-2004	Student in Applied Mathematics, Kharkiv National University, Ukraine. M.S. degree

TOPICS of THESES:

Ph.D.:	"Mathematical models of multi-slot antennas and axially-symmetric grooved waveguides." Supervisor: Prof. Y. V. Gandel
M.S.:	"Mathematical models of wave radiation from a cylindrical slotted antenna." Supervisor: Prof. Y.V. Gandel

CURRENT RESEARCH INTERESTS:
Singular Integral Equations, Printed Antennas, Conformal Antennas, Graphene, RCS Modification, Eigenvalue Problems

AWARDS AND ACHIEVEMENTS:

2023	Travel Grant of EuMA for attending EuMC-2023 conference in Berlin Travel Grant of IEEE R8 VCF for attending EuCAP-2023 conference in Florence
2022	Travel Grant of IEEE MTT-S for attending EuMC-2022 conference in Milan One-off emergency support of the IOP Physics Benevolent Fund, UK for the war affected scientists of Ukraine Research Grant of the PAUSE Programme of MESR, France for work at the Universite de Rennes
2020	Travel Grant of EuMA for attending EuMC-2020 conference in Utrecht (reduced to fee waiver because of Covid)
2019	Travel Grant of EuMA for attending EuMC-2019 conference in Paris Travel Grant of EuMA for attending EuMCE-2019 conference in Prague
2018	Young Scientist Contest Prize of OSA at the MMET-2018 International Conference, Kyiv, Ukraine
2010	Scholarship of the N.I. Akhiyezer Foundation, Kharkiv
1999-2007	Scholarships from KhNU

PROFESSIONAL ACTIVITIES:

2020-2023	Team member, research project of NRFU #2020-02-0150 "Electromagnetic modeling of micro and nano lasers with resonant graphene elements, at the threshold of stationary radiation"
2020	Secretary of the MMET*2020 int'l conference, Uzhhorod (cancelled because of Covid and war)
2019	Team member, joint project "Dnipro" of MAEE, France and MSE, Ukraine with the Universite de Rennes 1, France
2018	Volunteer work at the MMET*2018 int'l conference, Kyiv
2018+	IEEE member

JOURNAL PAPERS:

27.	F.O. Yevtushenko, S.V. Dukhopelnykov, Y.G. Rapoport, T.L. Zinenko, R. Sauleau, A.I. Nosich, " Tunability of non-plasmon resonances in the E-polarized terahertz wave scattering from microsize graphene strip-on-substrate grating," Optical Materials Express, vol. 13, no 8, pp. 2274-2287, 2023.
26.	D.O. Herasymova, D.M. Natarov, S.V. Dukhopelnykov, T.L. Zinenko, A.I. Nosich, "Threshold conditions for transversal modes of tunable plasmonic nanolasers shaped as single and twin graphene-covered circular quantum wires," IOP Nanotechnology, vol. 33, no 49, art. no 495001, 2022. [pdf]
25.	A.Y. Svezhentsev, S.V. Dukhopelnykov, V. Volski, G. Vandenbosch, A.I. Nosich, "Microsized graphene Helmholtz resonator on circular dielectric rod: a tunable sub-THz scatterer," IEEE Trans. Antennas and Propagation, vol. 70, no 3, pp. 2105-2113, 2022. [pdf]
24.	F.O. Yevtushenko, S.V. Dukhopelnykov, Y.G. Rapoport, T.L. Zinenko, A.I. Nosich, " Spoiling of tunability of on-substrate graphene strip grating due to lattice-mode-induced transparency," RSC Advances, vol. 12, no 8, pp. 4589–4594, 2021. [pdf]
23.	D.O. Herasymova, S.V. Dukhopelnykov, A.I. Nosich, "Infrared diffraction radiation from twin circular dielectric rods covered with graphene: plasmon resonances and beam position sensing," J. of Optical Society of America B, vol. 38, no 9, pp. C183-C190, 2021. Feature Issue on Light-Matter Interaction in Complex Photonic Systems. [pdf]
22.	F.O. Yevtushenko, S.V. Dukhopelnykov, T.L. Zinenko, Y.G. Rapoport, "Electromagnetic characterization of tuneable graphene-strips-on-substrate metasurface over entire THz range: Analytical regularization and natural-mode resonance interplay," IET Microwaves, Antennas and Propagation, vol. 15, no 10, pp. 1225-1239, 2021. Special Issue on Method of Analytical Regularisation for New Frontiers of Applied Electromagnetics. [pdf]
21.	F.O. Yevtushenko, S.V. Dukhopelnykov, T.L. Zinenko, "E-polarized plane-wave scattering from a PEC strip grating on a dielectric substrate: analytical regularization and lattice-mode resonances," J. of Electromagnetic Waves and Applications, vol. 35, no 10, pp. 1388–1405, 2021. [pdf]
20.	S.V. Dukhopelnykov, R. Sauleau, A.I. Nosich, "Circular dielectric rod with conformal strip of graphene as tunable terahertz antenna: interplay of inverse electromagnetic jet, whispering gallery and plasmon effects," IEEE J. of Selected Topics in Quantum Electronics, vol. 27, no 1, art. no 4600908, 2021. Special Issue on Photonic Antennas. [pdf]
19.	D.O. Herasymova, S.V. Dukhopelnykov, A.I. Nosich, "Optical sensing of electron-beam position with twin silver nanotube antenna tuned to hybrid surface plasmon resonance," IEEE J. of Selected Topics in Quantum Electronics, vol. 27, no 1, art. no 4601008, 2021. Special Issue on Photonic Antennas. [pdf]
18.	M. Lucido, M.V. Balaban, S.V. Dukhopelnykov, Nosich, "A fast-converging scheme for the electromagnetic scattering from a thin dielectric disk," Electronics, vol. 9, no 9, art. no 1451, 2020. [pdf]
17.	S.V. Dukhopelnykov, R. Sauleau, A.I. Nosich, "Integral equation analysis of terahertz backscattering from circular dielectric rod with partial graphene cover," IEEE J. of Quantum Electronics, vol. 56, no 6, art. no 8500208, 2020. [pdf]
16.	F.O. Yevtushenko, S.V. Dukhopelnykov, A.I. Nosich, "H-polarized plane-wave scattering by a PEC strip grating on top of a dielectric substrate: analytical regularization based on the Riemann-Hilbert Problem solution," J. of Electromagnetic Waves and Applications, vol. 34, no 4, pp. 483-499, 2020. [pdf]
15.	D.O. Yevtushenko, S.V. Dukhopelnikov, "Visible light from modulated electron beam moving between twin circular silver nanowires forming plasmonic photonic molecule," IOP J. of Optics, vol. 22, no 2, art . no 025002/11, 2020. [pdf]
14.	S.V. Dukhopelnykov, R. Sauleau, M. Garcia-Vigueras, A.I. Nosich, "Combined plasmon-resonance and photonic-jet effect in the THz wave scattering by dielectric rod decorated with graphene strip," J. Applied Physics, vol. 126, art. no 023104, 2019. Special Issue on High Refractive Index Dielectric Nanoresonators and Metasurfaces. [pdf]
13.	D.O. Yevtushenko, S.V. Dukhopelnykov, A.I. Nosich, "Electron-beam excitation of supermodes of a photonic molecule built on twin high-refractive index dielectric nanowires," J. Applied Physics, vol. 125, no 22, art. no 223102, 2019. Special Issue on High Refractive Index Dielectric Nanoresonators and Metasurfaces. [pdf]
12.	D.O. Yevtushenko, S.V. Dukhopelnykov, A.I. Nosich, "Modeling of optical diffraction radiation from a dielectric and a silver nanowire excited by a modulated electron beam," Optical and Quantum Electronics, vol. 51, no 1, art. no 29, 2019. [pdf]
11.	S.V. Dukhopelnykov, "In memoriam of Professor Yuriy V. Gandel," Bulletin of the Kharkiv National University, Serie Mathematical Modelling in Engineering and Technology, no 6(1228), 2017.
10.	S.V. Dukhopelnykov, "Heterogeneities in antenna cavity and the scattering properties of some special antennas," Bulletin of the Kharkiv National University, Serie Mathematical Modelling, Information Technology, and Automated Control Systems, no 32, 2016.
9.	S.V. Dukhopelnykov, "Mathematical model of the scattering of TM wave from a dielectric-filled circular cylindrical antenna with longitudinal slots," Bulletin of the National Technical University "KhPI", no 18, 2014.
8.	S.V. Dukhopelnykov, Y.V. Gandel, "Mathematical model of the scattering of TEW wave on a stip grating in a waveguide," Bulletin of the National Technical University "KhPI", no 42, 2011.
7.	S.V. Dukhopelnykov, Y.V. Gandel, "Mathematical model for characterization of cylindrical antenna with longitudinal slots in the case of TE polarization," Bulletin of the National Technical University "KhPI", no 13, pp. 33-38, 2011.
6.	S.V. Dukhopelnykov, "Mathematical model of 2-D radiation of cylindrical antenna with longitudinal slots, " Bulletin of the National Technical University "KhPI", no 68, 2010.
5.	S.V. Dukhopelnykov, V.O. Myshchenko, "Numerical code for the search of generalized eigenfrequencies of circular waveguide with a slot, based on the method of discrete singularities ," Bulletin of the Kharkiv National University, Serie Mathematical Modelling, Information Technology, and Automated Control Systems, no 11, 2009.
4.	S.V. Dukhopelnykov, Y.V. Gandel, "Mathematical model of plane wave scattering from a circular PEC waveguide with longitudinal slots and filled with dielectric," Bulletin of the Kharkiv National University, Serie Mathematical Modelling, Information Technology, and Automated Control Systems, no 9, 2008.
3.	S.V. Dukhopelnykov, "Mathematical models for the wave scattering in a circular waveguide with sections filled with dioelectric," Bulletin of the Kharkiv National University, Serie Mathematical Modelling, Information Technology, and Automated Control Systems, no 7, 2007.
2.	S.V. Dukhopelnykov, "Mathematical model of wave propagation in a circular waveguide, based on the singular integral equations and Nystrom discretization," Bulletin of the Kharkiv National University, Serie Mathematical Modelling, Information Technology, and Automated Control Systems, no 6, 2006.
1.	S.V. Dukhopelnykov, "Mathematical model of wave radiation from a circular waveguide with longitudinal slots," Bulletin of the Kharkiv National University, Serie Mathematical Modelling, Information Technology, and Automated Control Systems, no 4, 2005.

CONFERENCE PAPERS:

36.	F.O. Yevtushenko, S.V. Dukhopelnykov, "Emission frequencies and thresholds for microsize graphene strip grating on gain substrate," Proc. European Microwave Conf. (EuMC-2023), Berlin, 2023, pp. . This paper was awarded Travel Grant of EuMA.
35.	I.O. Mikhailikova, S.V. Dukhopelnykov, "Elementary radial electric dipole excitation of graphene spherical disk on dielectric sphere," Proc. Int. Conf. Ukrainian Microwave Week (UKRMW-2022), Kharkiv, 2022, pp. 388–391.
34.	I.O. Mikhailikova, S.V. Dukhopelnykov, "Non-plasmon resonances in the E-polarized plane wave scattering and absorption by a circular dielectric wire with partial graphene cover," Proc. Int. Conf. Electronics and Nanotechnology (ELNANO-2022), Kyiv, 2022, pp. 160–163.
33.	F.O. Yevtushenko, S.V. Dukhopelnykov, "Resonances in the E-polarized terahertz wave scattering and absorption by graphene strip on-substrate gratingr," Proc. European Microwave Conf. (EuMC-2022), Milan, 2022, pp. 736–739. This paper was awarded a Travel Grant of EuMA.
32.	I.O. Mikhailikova, S.V. Dukhopelnykov, "2-D scattering and absorption of E-polarized plane wave by a circular dielectric wire with partial graphene cover," Proc. European Microwave Conf. (EuMC-2022), Milan, 2022, pp. 290–293. This paper was awarded a Travel Grant of EuMA.
31.	D.O. Herasymova, S.V. Dukhopelnykov, R. Sauleau, "Lasing threshold conditions for transversal modes of twin graphene-covered circular quantum wires," Proc. European Microwave Conf. (EuMC-2022), Milan, 2022, pp. 242–245. This paper was awarded a Travel Grant of EuMA.
30.	S.V. Dukhopelnykov, T.L. Zinenko, A.I. Nosich, "Lasing eigenvalue problem for a circular quantum wire partially covered with a graphene cover," Proc. IEEE Ukraine Conf. Electrical Computer Eng. (UKRCON-2021), Lviv, 2021, pp. 121-125.
29.	F.O. Yevtushenko, S.V. Dukhopelnykov, T.L. Zinenko, "Basic equations of the lasing eigenvalue problem for a graphene strip on-substrate grating, H-polarization," Proc. IEEE Ukraine Conf. Electrical Computer Eng. (UKRCON-2021), Lviv, 2021, pp. 172-176.
28.	D.O. Herasymova, S.V. Dukhopelnykov, T.L. Zinenko, "Electromagnetic eigenvalue problem for twin dielectric rods covered with graphene: symmetry classes of the H-polarized supermodes," Proc. IEEE Ukraine Conf. Electrical Computer Eng. (UKRCON-2021), Lviv, 2021, pp. 92-95.
27.	S.V. Dukhopelnykov, "Plasmon resonances of conformal graphene strip placed on circular dielectric rod: from microwaves to infrared range," Proc. European Microwave Conf. (EuMC-2020), Utrecht, 2021, pp. 396-399. This paper was awarded a Travel Grant of EuMA.
26.	F.O. Yevtushenko, S.V. Dukhopelnykov, T.L. Zinenko,"Fano-shape lattice-mode resonances and near fields in the E-polarized wave scattering by a PEC strip grating on a dielectric substrate," Proc. Int. Conf. Ukrainian Microwave Week (UkrMW-2020), Kharkiv, 2020, pp. 516-519.
25.	S.V. Dukhopelnykov, R. Sauleau,"Plasmon resonance of graphene strip placed on dielectric rod in the microwave range," Proc. Int. Conf. Ukrainian Microwave Week (UkrMW-2020), Kharkiv, 2020.
24.	D.O. Herasymova, S.V. Dukhopelnykov, "Full-wave modeling of beam position monitors on silver nanowires and nanotubes: analysis of solution convergence," Proc. Int. Conf. Electronics and Nanotechnology (ELNANO-2020), Kyiv, 2020, pp. 77-80.
23.	S.V. Dukhopelnykov, "Comparison of two convergent numerical methods for solving the problem of wave-scattering by a dielectric rod with a conformal strip of graphene," Proc. Int. Conf. Microwaves, Communications, Antennas, and Electronic Systems (COMCAS-2019), Tel Aviv, 2020.
22.	S.V. Dukhopelnykov, "Analysis of combined plasmon-resonance and photonic-jet effects in the THz wave scattering by dielectric rod with graphene strip," Proc. European Microwave Conf. (EuMC-2019), Paris, 2019. This paper was awarded a Travel Grant of EuMA.
21.	S.V. Dukhopelnykov, M. Garcia-Vigueras, R. Sauleau, "Dielectric wire wrapped in graphene layer with a slot as a plasmonic absorber of THz waves," Proc. IEEE Ukraine Conf. Electrical Computer Eng. (UKRCON-2019), Lviv, 2019.
20.	D.O. Yevtushenko, S.V. Dukhopelnykov, "Total scattering cross-section of twin circular silver nanowires exited by electron beam moving between them,," Proc. European Microwave Conf. Central Europe (EuMCE-2019), Prague, 2019, pp. 386-389.
19.	S.V. Dukhopelnykov, "Analysis of plasmon mode effects in the scattering and absorption of THz waves by a dielectric wire wrapped in graphene layer with longitudinal slot," Proc. European Microwave Conf. Central Europe (EuMCE-2019), Prague, 2019, pp. 481-484. This paper was awarded a Travel Grant of EuMA.
18.	S.V. Dukhopelnykov, M. Garcia-Vigueras, R. Sauleau, "Scattering and absorption of the H-polarized plane wave of THz range by a circularly curved graphene strip in the free space," Proc. Int. Conf. Electronics and Nanotechnology (ELNANO-2019), Kyiv, 2019.
17.	D.O. Yevtushenko, S.V. Dukhopelnykov, "Near fields of twin circular silver nanowires exited by electron beam moving between them," Proc. Int. Conf. Electronics and Nanotechnology (ELNANO-2019), Kyiv, 2019.
16.	S.V. Dukhopelnykov, "Control of backscattering of H-polarized plane wave by a circular dielectric rod with partial graphene cover," Proc. Int. Workshop Direct and Inverse Problems of Electromagnetic and Acoustic Wave Theory (DIPED-2018), Tbilisi, 2018, pp. 51-54.
15.	S.V. Dukhopelnykov, "Scattering of H-polarized plane wave by a circular dielectric wire with partial graphene cover," Proc. Int. Conf. Mathematical Methods in Electromagnetic Theory (MMET2018),* Kyiv, 2018, pp. 87-90. This paper was awarded the Young Scientist Contest Prize of OSA.
14.	S.V. Dukhopelnykov, "Method of discrete singularities in the problems of wave scattering on waveguide discontinuities," Proc. Conf. Methods of Discrete Singularities in Mathematical Physics (MDSMP-2017), Kharkiv, 2017 (in Russian).
13.	S.V. Dukhopelnykov, Y.V. Gandel, "Mathematical models of diffraction of waves on the discontinuities in axially-symmetric and plate-parallel waveguides, based on MDS," Proc. Conf. Problems of Contemporary Mathematics and Its Applications in Natural Sciences, Kharkiv, 2012 (in Russian).
12.	S.V. Dukhopelnykov, Y.V. Gandel, "Mathematical models of diffraction of waves on the discontinuities in waveguides," Proc. Conf. Methods of Discrete Singularities in Mathematical Physics (MDSMP-2011), Kherson, 2011 (in Russian).
11.	S.V. Dukhopelnykov, Y.V. Gandel, "Singular integral equations in the problems of diffraction of waves in axially-symmetric waveguides with inhomogeneus dielectric filling," Proc. M. Kravchuk Int. Conf. Mathematics, Kyiv, 2008 (in Ukrainian).
10.	S.V. Dukhopelnykov, "Method of discrete singularities in electromagnetics of axially-symmetric waveguides with dielectric inserts," Proc. School Methods of Discrete Singularities in Mathematical Physics, Orel, 2007 (in Russian).
9.	S.V. Dukhopelnykov, "Mathematical model for the computation of wave propagation in a circular waveguide with dielectric inserts, based on the singular integral equations," Proc. Conf. Problems of Contemporary Mathematics and Its Applications in Natural Sciences, Kharkiv, 2007 (in Ukrainian).
8.	S.V. Dukhopelnykov, Y.V. Gandel, "Electromagnetic wave diffraction in axially symmetric waveguides with inhomogeneous dielectric filling," Proc. Int. Conf. Dynamic System Modelling and Stability Investigation, Kyiv, 2007.
7.	S.V. Dukhopelnykov, "Singular integral equations in the problems of wave scattering in axially-symmetric waveguides with inhomogeneous dielectric filling," Proc. M. Kravchuk Int. Conf. Mathematics, Kyiv, 2006 (in Russian).
6.	S.V. Dukhopelnykov, "Mathematical model of computetion of corrugated waveguide on the basis of singular integral equations," Proc. Young Scientists Conf. of the Kharkiv National University, Kharkiv 2006 (in Russian).
5.	S.V. Dukhopelnykov, "Mathematical model of cylindrical wave radiation from the longitudinal slots in a circular cylinder," Proc. School Methods of Discrete Singularities in Mathematical Physics, Orel, 2005 (in Russian).
4.	S.V. Dukhopelnykov, "Mathematical model of plane wave diffraction by a a circular cylinder with longitudinal slots," Proc. School Methods of Discrete Singularities in Mathematical Physics, Orel, 2005 (in Russian).
3.	S.V. Dukhopelnykov, "Mathematical model of the E-polarized plane wave diffraction by a circular cylinder with longitudinal slots," Proc. Conf. Methods of Discrete Singularities in Mathematical Physics (MDSMP-2005), Kharkiv, 2005 (in Russian).
2.	S.V. Dukhopelnykov, "Mathematical model of the plane monochromatic E-polarized wave diffraction on the slot in a circular waveguide," Proc. M. Kravchuk Int. Conf. Mathematics, Kiev, 2004 (in Russian).
1.	S.V. Dukhopelnykov, "Discrete mathematical models on the basis of the method of discrete singularities and singular integral equations," Proc. Conf. Methods of Discrete Singularities in Mathematical Physics (MDSMP-2003), Kherson, 2003 (in Russian).