Publications

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	Publications of LMNO Classified by Topics
1.	Method of analytical regularization and Nystrom-type methods
2.	Micro and nano lasers - LEPs
3.	Noble-metal strips, wires and disks at optical frequencies - scattering and absorption
4.	Graphene-based THz antennas and sensors - scattering and absorption
5.	Dielectric screens, lenses and radomes - scattering and absorption
6.	Dielectric open resonators - eigenvalue problems
7.	Open waveguides - scattering and absorptions
8.	Open waveguides - eigenvalue problems
9.	Gratings - scattering and absorption
10.	PEC and resistive screens and cavities - scattering and absorption
11.	PEC and resistive reflector antennas - scattering and absorption
12.	PEC and resistive printed and conformal antennas - scattering and absorption
13.	History of microwaves
14.	Others

1.	Challenge of guaranteed convergence: Method of Analytical Regularization (MAR) and Nystrom-type methods
	1-19. M. Lucido, K. Kobayashi, F. Medina, A.I. Nosich, E.D. Vinogradova, "Guest Editorial: Method of analytical regularisation for new frontiers of applied electromagnetics," IET Microwaves, Antennas and Propagation, vol. 15, no 10, pp. 1127-1132, 2021. [pdf]
	1-18. A.O. Spiridonov, A.O. Oktyabrskaya, E.M. Karchevskii, A.I. Nosich, "Mathematical and numerical analysis of the generalized complex-frequency eigenvalue problem for two-dimensional optical microcavities," SIAM J. of Applied Mathematics, vol. 80, no 4, pp. 1977–1998, 2020. [pdf]
	1-17. M. Lucido, M.V. Balaban, S.V. Dukhopelnykov, A.I. Nosich, "A fast-converging scheme for the electromagnetic scattering from a thin dielectric disk," Electronics, vol. 9, no 9, art. no 1451, 2020. [pdf]
	1-16. N.Y. Saidoglu, A.I. Nosich, "Method of analytical regularization in the analysis of axially symmetric excitation of imperfect circular disk antennas," Computers and Mathematics with Applications, vol. 79, no 10, pp. 2872-2884, 2020. [pdf]
	1-15. M. Lucido, M.D. Migliore, A.I. Nosich, G. Panariello, D. Pinchera, F. Schettino, "Efficient evaluation of slowly converging integrals arising from the application of MAP to a spectral domain integral equation," Electronics, vol. 8, no 12, art. no 1500, 2019. [pdf]
	1-14. A.O. Spiridonov, E.M. Karchevskii, A.I. Nosich, "Mathematical and numerical modeling of on-threshold modes of 2-D microcavity lasers with piercing holes," Axioms, vol. 8, no 3, art. no 101, 2019. Special Issue on Numerical Methods for Solving Nonlinear Equations and Systems: Convergence and Stability [pdf]
	1-13. A.O. Spiridonov, E.M. Karchevskii, A.I. Nosich, "Rigorous formulation of the lasing eigenvalue problem as a spectral problem for a Fredholm operator-function," Lobachevsky J. of Mathematics, vol. 39, no 8, pp. 1148-1157, 2018. [pdf]
	1-12. A.I. Nosich, "Method of analytical regularization in computational photonics," Radio Science, vol. 51, pp. 1421-1430, 2016. Special Issue of the 2015 URSI-Japan Radio Science Meeting [pdf]
	1-11. I.O. Sukharevsky, O.V. Shapoval, A.I. Nosich, A. Altintas, "Validity and limitations of the median-line integral equation technique in the scattering by material strips of sub-wavelength thickness," IEEE Trans. Antennas and Propagation, vol. 62, no 7, pp. 3623-3631, 2014. [pdf]
	1-10. M.V. Balaban, E.I. Smotrova, O.V. Shapoval, V.S. Bulygin, A.I. Nosich, "Nystrom-type techniques for solving electromagnetics integral equations with smooth and singular kernels," Int. J. Numerical Modeling: Electronic Networks, Devices and Fields, vol. 25, no 5-6, pp. 490-511, 2012. Special Issue on Nontraditional Differential and Integral Equation Discretization Schemes [pdf]
	1-9. V.S. Bulygin, A.I. Nosich, Y.V. Gandel, "Nystrom-type method in three-dimensional electromagnetic diffraction by a finite PEC rotationally symmetric surface," IEEE Trans. Antennas and Propagation, vol. 60, no 10, pp. 4710-4718, 2012. [pdf]
	1-8. M.V. Balaban, R. Sauleau, T.M. Benson, A.I. Nosich, "Dual integral equations technique in electromagnetic wave scattering by a thin disk," Progress in Electromagnetic Research B, vol. 16, pp. 107-126, 2009. [pdf]
	1-7. S.V. Boriskina, P. Sewell, T.M. Benson, A.I. Nosich, "Accurate simulation of 2D optical microcavities with uniquely solvable boundary integral equations and trigonometric Galerkin discretization," J. Optical Society of America A, vol. 21, no 3, pp. 393-402, 2004. [pdf]
	1-6. A.I. Nosich, "Method of analytical regularization based on the static part inversion in wave scattering by imperfect thin screens," J. Telecommunications and Information Technology, Warsaw: NIT Press, no 3, pp. 72-79, 2001. [pdf]
	1-5. A. Altintas, A.I. Nosich, "The method of regularization and its application to some electromagnetic problems," in N.K. Uzunoglu, K.S. Nikita, D.I. Kaklamani (Eds.), Applied Computational Electromagnetics, Springer NATO-ASI Series, vol. 171, pp. 409-423, 2000. [pdf]
	1-4. A.I. Nosich, "Method of Analytical Regularization in wave-scattering and eigenvalue problems: foundations and review of solutions," IEEE Antennas and Propagation Magazine, vol. 42, no 3, pp. 34-49, 1999. [pdf]
	1-3. A.I. Nosich, "Green's function - dual series approach in wave scattering from combined resonant scatterers," in M. Hashimoto, M. Idemen and O.A. Tretyakov (Eds.), Analytical and Numerical Methods in Electromagnetic Wave Theory, Tokyo: Science House Publ., pp. 419-469, 1993. [pdf]
	1-2. A.I. Nosich, "Accurate solution of wave diffraction problems for nonclosed circular screens in stratified dielectric medium," Doklady Akademii Nauk Ukrainskoi SSR, ser. A, no 10, pp. 47-51, 1986 (in Russian).
	1-1. A.I. Nosich, "Excitation of a 2-D open resonator containing a diffraction grating," Doklady Akademii Nauk Ukrainskoi SSR, ser. A, no 3, pp. 51-55, 1985 (in Russian).
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2.	Threshold conditions for micro and nano lasers - Lasing Eigenvalue Problems (LEP)
	2-26. M.V. Kaliberda, S.A. Pogarsky, O.V. Kostenko, O.I. Nosych, T.L. Zinenko,"Circular quantum wire symmetrically loaded with graphene strip as plasmonic micro/nanoscale laser: threshold conditions analysis," Optics Express, vol. 32, no 7, pp. 12213-12227, 2024. Joint Feature Issue in Optics Express and Optics Materials Express: Advanced Solid-State Lasers [pdf]
	2-25. D.O. Herasymova, S.V. Dukhopelnykov, D.M. Natarov, T.L. Zinenko, M. Lucido, 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, art. no 495001, 2022. [pdf]
	2-24. A.O. Oktyabrskaya, A.I. Repina, A.O. Spiridonov, E.M. Karchevskii, A.I. Nosich, "Numerical modeling of on-threshold modes of eccentric-ring microcavity lasers using the Muller integral equations and the trigonometric Galerkin method," Optics Communications, vol. 476. art. no 126311, 2020. [pdf]
	2-23. A.O. Spiridonov, E.M. Karchevskii, T.M. Benson, A.I. Nosich, "Why elliptic microcavity lasers emit light on bow-tie-like modes instead of whispering-gallery-like modes," Optics Communications, vol. 439, pp. 112-117, 2019. [pdf]
	2-22. D.M. Natarov, T.M. Benson, A.I. Nosich, "Electromagnetic analysis of the lasing thresholds of hybrid plasmon modes of a silver tube nanolaser with active core and active shell," Beilstein J. of Nanotechnology, vol. 10, pp. 294-304, 2019. [pdf]
	2-21. O.V. Shapoval, K. Kobayashi, A.I. Nosich, "Electromagnetic engineering of a single-mode nanolaser on a metal plasmonic strip placed into a circular quantum wire," IEEE J. of Selected Topics in Quantum Electronics, vol. 23, no 6, art. no 1501609, 2017. Special Issue on Semiconductor Lasers [pdf]
	2-20. A.O. Spiridonov, E.M. Karchevskii, A.I. Nosich, "Symmetry accounting in the integral-equation analysis of lasing eigenvalue problems for two-dimensional optical microcavities," J. Optical Society America B, vol. 34, no 7, pp.1435-1443, 2017. [pdf]
	2-19. A.S. Zolotukhina, A.O. Spiridonov, E.M. Karchevskii, A.I. Nosich, "Electromagnetic analysis of optimal pumping of a microdisk laser with a ring electrode," Applied Physics B, vol. 123, no 1, art no 32, 2017. [pdf]
	2-18. A.S. Zolotukhina, A.O. Spiridonov, E.M. Karchevskii, A.I. Nosich, "Lasing modes of a microdisk with a ring gain area and of an active microring," Optical and Quantum Electronics, vol. 47, no 12, pp. 3883-3891, 2015. [pdf]
	2-17. D.M. Natarov, "Modes of a core-shell silver wire plasmonic nanolaser beyond the Drude formula," IOP J. of Optics, vol. 16, vol. 16, no 7, pp. 075002/6, 2014. [pdf]
	2-16. E.I. Smotrova, A.I. Nosich, "Optical coupling of an active microdisk to a passive one: effect on the lasing thresholds of the whispering-gallery supermodes," Optics Letters, vol. 38, no 12, pp. 2059-2061, 2013. [pdf]
	2-15. E.I. Smotrova, V. Tsvirkun, I. Gozhyk, C. Lafargue, C. Ulysse, M. Lebental, A.I. Nosich, "Spectra, thresholds and modal fields of a kite-shaped microcavity laser," J. of Optical Society of America B, vol. 30, no 6, pp. 1732-1742, 2013. [pdf]
	2-14. V.O. Byelobrov, T.M. Benson, A.I. Nosich, "Binary grating of sub-wavelength silver and quantum wires as a photonic-plasmonic lasing platform with nanoscale elements," IEEE J. of Selected Topics in Quantum Electronics, vol. 18, no 6, pp. 1839-1846, 2012. Special Issue on Quantum and Nanoscale Photonics [pdf]
	2-13. R. I. Shekhter, A.M. Kadigrobov, M. Jonson, E.I. Smotrova, A.I. Nosich, V. Korenivski, "Sub-wavelength terahertz spin-flip laser based on a magnetic point-contact array," Optics Letters, vol. 36, no 12, pp. 2381-2383, 2011. [pdf]
	2-12. E.I. Smotrova, V.O. Byelobrov, T.M. Benson, J. Ctyroky, R. Sauleau, A.I. Nosich, "Optical theorem helps understand thresholds of lasing in microcavities with active regions," IEEE J. of Quantum Electronics, vol. 47, no 1, pp. 20-30, 2011. [pdf]
	2-11. V.O. Byelobrov, J. Ctyroky, T.M. Benson, R. Sauleau, A. Altintas, A.I. Nosich, "Low-threshold lasing eigenmodes of an infinite periodic chain of quantum wires," Optics Letters, vol. 35, no 21, pp. 3634-3636, 2010. [pdf]
	2-10. E.I. Smotrova, T.M. Benson, P. Sewell, J. Ctyroky, R. Sauleau, A.I. Nosich, "Optical fields of the lowest modes in a uniformly active thin sub-wavelength spiral microcavity," Optics Letters, vol. 34, no 24, pp. 3773-3775, 2009. [pdf]
	2-9. E.I. Smotrova, T.M. Benson, P. Sewell, J. Ctyroky, A.I. Nosich, "Lasing frequencies and thresholds of the dipole-type supermodes in an active microdisk concentrically coupled with a passive microring," J. of Optical Society of America A, vol. 25, no 11, pp. 2884-2892, 2008. [pdf]
	2-8. T. Benson, A. Nosich, E. Smotrova, M. Balaban, P. Sewell, "Laser eigenvalue problems: The electromagnetic modelling of microlasers," Proc. SPIE, vol. 6452, pp. 64520L/8, 2007. Special Issue: Laser Resonators and Beam Control [pdf]
	2-7. A.I. Nosich, E.I. Smotrova, S.V. Boriskina, T.M. Benson, P. Sewell, "Trends in microdisk laser research and linear optical modeling," Optical and Quantum Electronics, vol. 39, no 15, pp. 1253-1272, 2007. Invited paper [pdf]
	2-6. V.O. Byelobrov, A.I. Nosich, "Mathematical analysis of the lasing eigenvalue problem for the optical modes in a layered dielectric microcavity with a quantum well and distributed Bragg reflectors," Optical and Quantum Electronics, vol. 39, no 10-11, pp. 927-937, 2007. [pdf]
	2-5. E.I. Smotrova, A.I. Nosich, T.M. Benson, P. Sewell, "Ultralow lasing thresholds of the pi-type supermodes in cyclic photonic molecules composed of sub-micron disks with monopole and dipole modes," IEEE Photonics Technology Letters, vol. 18, no 19, pp. 1993-1995, 2006. [pdf]
	2-4. E.I. Smotrova, A.I. Nosich, T.M. Benson, P. Sewell, "Threshold reduction in a cyclic photonic molecule laser composed of identical microdisks with whispering-gallery modes, " Optics Letters, vol. 31, no 7, pp. 921-923, 2006. [pdf]
	2-3. E.I. Smotrova, A.I. Nosich, T.M. Benson, P. Sewell, "Optical coupling of whispering gallery modes of two identical microdisks and its effect on the lasing spectra and thresholds," IEEE J. of Selected Topics in Quantum Electronics, vol. 12, no 1, pp. 78-85, 2006. Special Issue on Microresonators [pdf with comment]
	2-2. E.I. Smotrova, A.I. Nosich, T.M. Benson, P. Sewell, "Cold-cavity thresholds of microdisks with uniform and non-uniform gain: quasi-3D modeling with accurate 2D analysis," IEEE J. of Selected Topics in Quantum Electronics, vol. 11, no 5, pp. 1135-1142, 2005. Special Issue on Semiconductor Lasers [pdf]
	2-1. E.I. Smotrova, A.I. Nosich, "Mathematical study of the two-dimensional lasing problem for the whispering-gallery modes in a circular dielectric microcavity," Optical and Quantum Electronics, vol. 36, no 1-3, pp. 213-221, 2004. [pdf]
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3.	Noble-metal strips, wires and disks at optical frequencies - Scattering and Absorption
	3-20. M. Lucido, O.I. Nosych, "Optical Theorem in the 3-D scattering from locally perturbed lossless or lossy thin dielectric plate: silver disk-sealed hole analysis," Optics Express, vol. 32, no 17, pp. 29030-29056, 2024. [pdf]
	3-19. D.O. Herasymova, S.V. Dukhopelnikov, 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]
	3-18. E.A. Velichko, "Localized surface plasmon modes of core-shell bimetal nanowires do not hybridize," J. Optical Society of America A, vol. 37, no 9, pp. 1411-1416, 2020. [pdf]
	3-17. 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]
	3-16. D.O. Yevtushenko, S.V. Dukhopelnikov, A.I. Nosich, "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]
	3-15. E.A. Velichko, D.M. Natarov, "Localized versus delocalized surface plasmons: dual nature of resonances on a silver circular wire and a silver tube of large diameter," IOP J. of Optics,, vol. 20, no 7, at no 075002/9, 2018. [pdf]
	3-14. T.L. Zinenko, V.O. Byelobrov, M. Marciniak, J. Ctyroky, A.I. Nosich, "Grating resonances on periodic arrays of sub-wavelength wires and strips: from discoveries to photonic device applications," Chapter 4 in O. Shulika, I. Sukhoivanov (Eds.), Contemporary Optoelectronics: Materials, Metamaterials and Device Applications, Springer Ser. Optical Sciences, vol. 199, pp. 65-79, 2016. [pdf]
	3-13. O.V. Shapoval, "Scattering of light waves by finite metal nanostrip gratings: Nystrom-type method and resonance effects," Radioelectronics and Communications Systems, vol. 58, no 5, pp. 201-211, 2015. [pdf]
	3-12. O.V. Shapoval, "Comparison of bulk refractive-index sensitivities of optical-mode resonances of a finite comb-like grating of silver nanostrips," IEEE J. of Quantum Electronics, vol. 51, no 4, art. no. 7200108/8, 2015. [pdf]
	3-11. D.M. Natarov, M. Marciniak, R. Sauleau, A.I. Nosich, "Seeing the order in a mess: optical signature of periodicity in a cloud of plasmonic nanowires," Optics Express, vol. 22, no. 23, pp. 28190–28198, 2014. [pdf]
	3-10. D.M. Natarov, R. Sauleau, M. Marciniak, A.I. Nosich, "Effect of periodicity in the resonant scattering of light by finite sparse configurations of many silver nanowires," Plasmonics, vol. 9, no 2, pp. 389-407, 2014. [pdf]
	3-9. E.A. Velichko, A.I. Nosich, "Refractive-index sensitivities of hybrid surface-plasmon resonances for a core-shell circular silver nanotube sensor," Optics Letters, vol. 38, no 23, pp. 4978-4981, 2013. [pdf]
	3-8. O.V. Shapoval, J. Ctyroky, A.I. Nosich, "Resonance effects in the optical antennas shaped as finite comb-like gratings of noble-metal nanostrips," Proc. SPIE, vol. 8781, pp. 87810U/8, 2013. Special Issue on Integrated Optics: Physics and Simulation [pdf]
	3-7. T.L. Zinenko, M. Marciniak, A.I. Nosich, "Accurate analysis of light scattering and absorption by an infinite flat grating of thin silver nanostrips in free space using the method of analytical regularization," IEEE J. Selected Topics in Quantum Electronics, vol. 19, no 3, art. no. 9000108/8, 2013. Special Issue on Nanoplasmonics [pdf]
	3-6. O.V. Shapoval, R. Sauleau, A.I. Nosich, "Modeling of plasmon resonances of multiple flat noble-metal nanostrips with a median-line integral equation technique," IEEE Trans. Nanotechnology, vol. 12, no 3, pp. 442-449, 2013. [pdf]
	3-5. O.V. Shapoval, A.I. Nosich, "Finite gratings of many thin silver nanostrips: optical resonances and role of periodicity," AIP Advances, vol. 3, no 4, pp. 042120/13, 2013. [pdf]
	3-4. D.M. Natarov, R. Sauleau, A.I. Nosich, "Resonance scattering and absorption of light by finite two-period gratings of circular silver nanowires," Int. J. Semiconductor Physics, Quantum Electronics, and Optoelectronics, Kiev, ISP NASU Press, vol. 15, no 3, pp. 204-208, 2012. [pdf]
	3-3. O.V. Shapoval, R. Sauleau, A.I. Nosich, "Grating and plasmon resonances in the scattering of light by finite silver nanostrip gratings," Int. J. Semiconductor Physics, Quantum Electronics, and Optoelectronics, Kiev, ISP NASU Press, vol. 15, no, 3, pp. 200-203, 2012. [pdf]
	3-2. D.M. Natarov, R. Sauleau, A.I. Nosich, "Periodicity-enhanced plasmon resonances in the scattering of light by sparse finite gratings of circular silver nanowires," IEEE Photonics Technology Letters, vol. 24, no 1, pp. 43-45, 2012. [pdf]
	3-1. D.M. Natarov, V.O. Byelobrov, R. Sauleau, T.M. Benson, A.I. Nosich, "Periodicity-induced effects in the scattering and absorption of light by infinite and finite gratings of circular silver nanowires," Optics Express, vol. 19, no 22, pp. 22176-22190, 2011. Focus Issue “Collective phenomena in photonic, plasmonic and hybrid structures” [pdf with comment]
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4.	Graphene-Based Terahertz Antennas and Sensors - Scattering and Absorption
	4-17.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. Feature Issue: Photonic Materials for THz Light Control [pdf]
	4-16. M. Lucido, M.V. Balaban, A.I. Nosich, "Terahertz range plasmon and whispering gallery mode resonances in the plane wave scattering from thin microsize dielectric disk with graphene covers," Proc. Royal Society A, vol. 478, no 2262, art. no 20220126, 2022. [pdf]
	4-15. A.Y. Svezhentsev, S.V. Dukhopelnykov, V. Volski, G. Vandenbosch, and A.I. Nosich, " Microsized graphene Helmholtz resonator on circular dielectric rod: a tunable sub-THz scatterer," IEEE Transactions on Antennas and Propagation, vol. 70, no 3, pp. 2105-2113, 2022. [pdf]
	4-14. 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, 2022. [pdf]
	4-13. 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]
	4-12. 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]
	4-11. S.V. Dukhopelnikov, 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]
	4-10. S.V. Dukhopelnikov, 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]
	4-9. T.L. Zinenko, A. Matsushima, A.I. Nosich, "Terahertz range resonances of metasurface based on double grating of microsize graphene strips inside dielectric slab," Proc. Royal Society A, vol. 476, no 2240, art. no 20200173, 2020. [pdf]
	4-8. S.V. Dukhopelnikov, 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, no 2, art. no 023104, 2019. Special Issue on High Refractive Index Dielectric Nanoresonators and Metasurfaces [pdf]
	4-7. T.L. Zinenko, A. Matsushima, A.I. Nosich, "Surface-plasmon, grating-mode and slab-mode resonances in THz wave scattering by a graphene strip grating embedded into a dielectric slab," IEEE J. Selected Topics in Quantum Electronics, vol. 23, no 4, art. no 4601809, 2017. Special Issue on Terahertz Photonics [pdf]
	4-6. T. Oguzer A. Altintas, A.I. Nosich, "Focusing of THz waves with a microsize cylindrical reflector made of graphene in the free space," J. European Optical Society - Rapid Publications, vol. 13, no 1, art. no 16, 2017. [pdf]
	4-5. E.A. Velichko, "Evaluation of a dielectric microtube with a graphene cover as a refractive-index sensor in the THz range," IOP J. of Optics, vol. 18, no 3, art. no 035008, 2016. [pdf]
	4-4. O.V. Shapoval, A.I. Nosich, "Bulk refractive-index sensitivities of the THz-range plasmon resonances on a micro-size graphene strip," IOP J. of Physics D: Applied Physics, vol. 49, no 5, art. no 055105, 2016. [pdf]
	4-3. T.L. Zinenko, "Scattering and absorption of terahertz waves by a free-standing infinite grating of graphene strips: analytical regularization analysis," IOP J. of Optics, vol. 17, no 5, art. no 055604, 2015. [pdf]
	4-2. M.V. Balaban, O.V. Shapoval, A.I. Nosich, "THz wave scattering by a graphene strip and a disk in the free space: integral equation analysis and surface plasmon resonances," IOP J. of Optics, vol. 15, no 11, art. no 114007, 2013. Special Issue on Graphene Nanophotonics [pdf]
	4-1. O.V. Shapoval, J. S. Gomez-Diaz, J. Perruisseau-Carrier, J. Mosig, A.I. Nosich, "Integral equation analysis of plane wave scattering by coplanar graphene-strip gratings in the THz range," IEEE Trans. Terahertz Science and Technology, vol. 3, no 5, pp. 666-673, 2013. [pdf]
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5.	Dielectric Screens, Lenses, Prisms and Radomes - Scattering and Absorption
	5-13. M. Lucido, M.V. Balaban, and A.I. Nosich, "Plane wave scattering from thin dielectric disk in free space: generalized boundary conditions, regularizing Galerkin technique and whispering-gallery mode resonances," IET Microwaves, Antennas and Propagation, vol. 15, no 10, pp. 1159-1170, 2021. [pdf]
	5-12. 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]
	5-11. I.O. Sukharevsky, A.I. Nosich, A. Altintas, "Manipulation of backscattering from a dielectric cylinder of triangular cross-section using the interplay of GO-like ray effects and resonances," IEEE Trans. Antennas and Propagation, vol. 63, no 5, pp. 2162-2169, 2015. [pdf]
	5-10. O.V. Shapoval, R. Sauleau, A.I. Nosich, "Scattering and absorption of waves by flat material strips analyzed using generalized boundary conditions and Nystrom-type algorithm," IEEE Trans. Antennas and Propagation, vol. 59 no 9, pp. 3339-3346, 2011. [pdf]
	5-9. M.V. Balaban, R. Sauleau, T.M. Benson, A.I. Nosich, "Accurate quantification of the Purcell effect in the presence of a dielectric microdisk of nanoscale thickness," IET Micro and Nano Letters, vol. 6, no 6, pp. 393-396, 2011. [pdf]
	5-8. A.V. Boriskin, R. Sauleau, A.I. Nosich, "Performance of hemielliptic dielectric lens antennas with optimal edge illumination," IEEE Trans. Antennas and Propagation, vol. 57, no 7, pp. 2193-2198, 2009. [pdf]
	5-7. A.V. Boriskin, R. Sauleau, A.I. Nosich, "Exact off-resonance near fields of small-size extended hemielliptic lenses illuminated by plane waves," J. Optical Society of America A, vol. 26, no 2, pp. 259-264, 2009. [pdf]
	5-6. A.V. Boriskin, S.V. Boriskina, A. Rolland, R. Sauleau, A.I. Nosich, "Test of the FDTD accuracy in the analysis of the scattering resonances associated with high-Q whispering-gallery modes of a circular cylinder," J. Optical Society of America A, vol. 25, no 5, pp. 1169-1173, 2008. [pdf with comment]
	5-5. A.V. Boriskin, A. Rolland, R. Sauleau, A.I. Nosich, "Assessment of FDTD accuracy in the compact hemielliptic dielectric lens antenna analysis," IEEE Trans. Antennas and Propagation, vol. 56, no 3, pp. 758-764, 2008. [pdf]
	5-4. A.V. Boriskin, G. Godi, R. Sauleau, A.I. Nosich, "Small hemielliptic dielectric lens antenna analysis: boundary integral equations versus geometrical and physical optics", IEEE Trans. Antennas and Propagation, vol. 56, no 2, pp. 485-492, 2008. [pdf]
	5-3. A.V. Boriskin, G. Godi, A. Rolland, R. Sauleau, A.I. Nosich, "Comparative research of the adequacy of GO/PO, FDTD, and IE-based numerical algorithms for analyzing compact dielectric lenses in mm and sub-mm integrated antennas," Radio Physics and Electronics, Kharkiv, IRE NASU Press, vol. 12, no 2, pp. 306-318, 2007 (in Russian). Translated to English in Telecommunications and Radio Engineering, Begell House Publ., 2009, vol. 68, no 1, pp. 1-26.
	5-2. A.V. Boriskin, A.I. Nosich, S.V. Boriskina, P. Sewell, T.M. Benson, A. Altintas, "Lens or resonator? - Electromagnetic behavior of an extended hemielliptic lens antenna for a sub-mm wave receiver," Microwave and Optical Technology Lett., vol. 43, no 6, pp. 515-518, 2004. [pdf]
	5-1. A.V. Boriskin, A.I. Nosich, "Whispering-gallery and Luneburg lens effects in a beam-fed circularly-layered dielectric cylinder," IEEE Trans. Antennas and Propagation, vol. 50, no 9, pp. 1245-1249, 2002. [pdf]
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6.	Dielectric Open Resonators - Complex-Frequency Eigenvalue Problems
	6-9. A.Y. Svezhentsev, V. Volski, G. Vandenbosch, A.I. Nosich, "THz range natural modes and scattering resonances of circular dielectric micro-cylinder covered with graphene: H-polarization case," Optical and Quantum Electronics, vol. 55, no 3, art.no 253, 2023. [pdf]
	6-8. V.S. Bulygin, Y.V. Gandel, A. Vukovic, T.M. Benson, P. Sewell, A.I. Nosich, "Nystrom method for the Muller boundary integral equations on a dielectric body of revolution: axially symmetric problem," IET Microwaves, Antennas and Propagation, vol. 9, no 11, pp. 1186-1192, 2015. [pdf]
	6-7. S.V. Boriskina, T.M. Benson, P. Sewell, A.I. Nosich, "Directional emission, increased free spectral range, and mode Q-factors of 2-D wavelength-scale optical microcavity structures," IEEE J. Selected Topics in Quantum Electronics, vol. 12, no 6, pp. 1175-1182, 2006. Special Issue on Nanophotonics [pdf]
	6-6. S.V. Boriskina, T.M. Benson, P. Sewell, A.I. Nosich, "Q factor and emission pattern control of the WG modes in notched microdisk resonators," IEEE J. Selected Topics in Quantum Electronics, vol. 12, no 1, pp. 52-58, 2006. Special Issue on Microresonators [pdf] [comment]
	6-5. T.M. Benson, S.V. Boriskina, P. Sewell, A. Vukovic, S. Greedy, A.I. Nosich, "Micro-optical resonators for microlasers and integrated optoelectronics," in S. Janz, J. Ctyroky and S. Tanev (Eds.), Frontiers in Planar Lightwave Circuit Technology, Springer NATO Ser. Mathematics, Physics and Chemistry, vol. 216, pp. 39-70, 2006. [pdf]
	6-4. S.V. Boriskina, T.M. Benson, P. Sewell, A.I. Nosich, "Optical modes in imperfect square and triangular microcavities," IEEE J. Quantum Electronics, vol. 41, no 6, pp. 857-864, 2005. [pdf]
	6-3. S.V. Boriskina, T.M. Benson, P. Sewell, A.I. Nosich, "Spectral shift and Q-change of circular and square-shaped optical microcavity modes due to periodic sidewall surface roughness," J. Optical Society of America B, vol. 21, no 10, pp. 1792-1796, 2004. [pdf]
	6-2. S.V. Boriskina, T.M. Benson, P. Sewell, A.I. Nosich, "Highly efficient design of spectrally engineered whispering-gallery-mode microlaser resonators," Optical and Quantum Electronics, vol. 35, no 4, pp. 545-559, 2003. [pdf with comments]
	6-1. S.V. Boriskina, T.M. Benson, P. Sewell, A.I. Nosich, "Effect of a layered environment on the complex natural frequencies of 2D WG-mode dielectric-ring resonators," IEEE/OSA J. Lightwave Technology, vol. 20, no 8, pp. 1563-1572, 2002. [pdf]
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7.	Open Waveguides - Scattering and Absorption by Inhomogeneities
	7-17. N.L. Tsitsas, C.A. Valagiannopoulos, A.I. Nosich, "Excitation of guided waves of a lossless dielectric slab by an E-polarized complex-source-point beam," IEEE Trans. Antennas and Propagation, vol. 67, no 8, pp. 5532-5543, 2019. [pdf]
	7-16. N.L. Tsitsas, C.A. Valagiannopoulos, A.I. Nosich, "Scattering and absorption of a complex source point beam by a grounded lossy dielectric slab with a superstrate," IOP J. of Optics, vol. 16, no 10, pp. 105712/10, 2014. [pdf]
	7-15. S.V. Boriskina, T.M. Benson, P. Sewell, A.I. Nosich, "Tuning of elliptic whispering-gallery-mode microdisk waveguide filters," IEEE/OSA J. Lightwave Technology, vol. 21, no 9, pp. 1987-1995, 2003. [pdf with comments]
	7-14. S.V. Boriskina, A.I. Nosich, "Radiation and absorption losses of the whispering-gallery-mode dielectric resonator excited by a dielectric waveguide," IEEE Trans. Microwave Theory and Techniques, vol. MTT-47, no 2, pp. 224-231, 1999. [pdf with comments]
	7-13. S.V. Boriskina, A.I. Nosich, "Numerical analysis of the surface wave bandstop filters based on a whispering-gallery-mode dielectric resonator and a slotted metallic cavity resonator," Radio Physics and Radio Astronomy, Kharkiv, IRA NASU Press, vol. 2, no 3, pp. 333-341, 1997. [pdf with comments] Translated to English in Telecommunications and Radio Engineering, Begell House Publ., vol. 51, no 2-3, pp. 103-111, 1997.
	7-12. S.V. Boriskina, A.I. Nosich, "Numerical simulation of surface-wave band-stop filters," Microwave and Optical Technology Lett., vol. 13, no 3, pp. 169-173, 1996. [pdf with comments]
	7-11. A.I. Nosich, "Radiation conditions, limiting absorption principle, and general relations in open waveguide scattering," J. Electromagn. Waves and Applications, vol. 8, no 3, pp. 329-353, 1994. [pdf]
	7-10. A.I. Nosich, A.S. Andrenko, "Scattering and mode conversion by a screen-like inhomogeneity inside a dielectric-slab waveguide," IEEE Trans. Microwave Theory and Techniques, vol. MTT-42, no 2, pp. 298-307, 1994. [pdf]
	7-9. A.S. Andrenko, A.I. Nosich, "H-scattering of thin-film modes from periodic gratings of finite extent," Microwave and Optical Technology Lett., vol. 5, no 7, pp. 333-337, 1992. [pdf]
	7-8. A.S. Andrenko, V.V. Kryzhanovsky, A.I. Nosich, V.P. Shestopalov, "Rejection filter," USSR Patent, 1990, no 1569981.
	7-7. A.S. Andrenko, A.I. Nosich, V.P. Shestopalov, "Reciprocity theorem in problems concerning the scattering of waves by irregularities in open planar waveguides," Soviet Physics Doklady, vol. 35, no 4, pp. 366-368, 1990.
	7-6. A.S. Andrenko, A.I. Nosich, "Scattering of dielectric slab modes from resonant inhomogeneities," Doklady Akademii Nauk Ukrainskoi SSR, ser. A, no 4, pp. 51-55, 1989 (in Russian).
	7-5. A.I. Nosich, V.P. Shestopalov, "Radiation conditions and uniqueness theorems for open waveguides," Soviet J. Communications Technology and Electronics , vol. 34, no 2, pp. 107-115, 1989. [pdf]
	7-4. A.I. Nosich, "Radiation conditions for open waveguides," Soviet Physics Doklady , vol. 32, no 9, pp. 720-722, 1987. [pdf]
	7-3. A.I. Nosich, "Scattering of the surface wave of an open impedance waveguide by an unclosed cylindrical screen," Soviet Physics - Technical Physics, vol. 31, no 8, pp. 883-889, 1986.
	7-2. A.I. Nosich, V.P. Shestopalov, "Self-consistent solution of the problem of diffraction by a discontinuity in an open waveguide," Soviet Physics Doklady, vol. 30, no 9, pp. 773-775, 1985.
	7-1. A.I. Nosich, V.P. Shestopalov, "Excitation of a partially shielded round dielectric rod by lumped sources," Soviet Physics - Technical Physics, vol. 28, no 12, pp. 1421-1426, 1983. [pdf]
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8.	Open Waveguides - Complex Wave Eigenvalue Problems
	8-26. Y.M. Kartchevskii, A.I. Nosich, G.W. Hanson, "Mathematical analysis of the generalized natural modes of an inhomogeneous optical fiber," SIAM J. Applied Mathematics, vol. 65, no 6, pp. 2033-2048, 2005. [pdf]
	8-25. S.V. Boriskina, T.M. Benson, P. Sewell, A.I. Nosich, "Highly efficient full-vectorial integral equation solution for the bound, leaky, and complex modes of dielectric waveguides," IEEE J. on Selected Topics in Quantum Electronics, vol. 8, no 6, pp. 1225-1232, 2002. [pdf] [comment]
	8-24. Y.M. Kartchevskii, A.I. Nosich, S.I. Solovyov, "Eigenmodes of dielectric waveguides with non-sharp boundaries," Trudy Matematicheskogo Tsentra (Proc. of the Mathematics Center), Kazan: Kazan State University Press, vol. 6, pp.79-114, 2000 (in Russian).
	8-23. A.I. Nosich, "Foundations of the theory of open waveguides," J. Telecommunications and Information Technology, Warsaw: NIT Press, no 1-2, pp.42-45, 2000. [pdf with comments]
	8-22. L. Richard, A.I. Nosich, J.-P. Daniel, "Revisiting the waves on a coated cylinder by using surface-impedance model," IEEE Trans. Antennas and Propagation, vol. AP-47, no 8, pp. 1374-1375, 1999. [pdf]
	8-21. A.I. Nosich, A.Y. Svezhentsev, "Principal and higher order modes of microstrip and slot lines on a cylindrical substrate," Electromagnetics, vol. 13, no 1, pp. 85-94, 1993. [pdf] [comment]
	8-20. A.I. Nosich, A.Y. Svezhentsev, "Accurate computation of mode characteristics for open-layered circular cylindrical microstrip and slot lines," Microwave and Optical Technology Lett., vol. 4, no 7, pp. 274-277, 1991. [pdf with comments]
	8-19. A.I. Nosich, A.Y. Svezhentsev, "Physical features of wave propagation in cylindrical slot and strip lines," Soviet J. Communications Technology and Electronics , vol. 35, no 1, pp. 51-59, 1990.
	8-18. A.I. Nosich, A.Y. Svezhentsev, "On the effect of cross-sectional compactness on modes behaviour in microstrip and slot lines," Proc. Asia-Pacific Microwave Conf. (APMC-90), Tokyo, 1990, pp. 1015-1018. [pdf]
	8-17. A.I. Nosich, A.Y. Svezhentsev, "Spectral theory of principal and higher order modes in open circular cylindrical slot and strip lines," Proc. URSI-B Int. Symp. Electromagnetic Theory, Stockholm, 1989, pp. 536-538. [pdf]
	8-16. A.I. Nosich, A.Y. Svezhentsev, V.P. Shestoplalov, "Attenuation of the slot and quasi-H11 modes in a cylindrical slot line," Doklady Akademii Nauk Ukrainskoi SSR, ser. A, no 3, pp. 45-49, 1988 (in Russian).
	8-15. A.I. Nosich, A.Y. Svezhentsev, V.P. Shestopalov, "Electrodynamic analysis of the discrete spectrum of characteristic modes of a partially screened dielectric rod," Soviet J. Communication Technology and Electronics , vol. 33, no 3, pp. 18-26, 1988.
	8-14. V.V. Kryzhanovsky, A.I. Nosich, A.Y. Svezhentsev, V.P. Shestopalov, "Microstrip transmission line," USSR Patent, 1988, no 1453481
	8-13. A.I. Nosich, A.Y. Poedinchuk, V.P. Shestopalov, "Existence of discrete spectrum and singular types of waves in an open waveguide," Soviet Physics Doklady , vol. 32, no 3, pp. 216-218, 1987.
	8-12. V.V. Kryzhanovsky, A.I. Nosich, A.Y. Svezhentsev, V.P. Shestopalov, "Theoretical and experimental investigation of cylindrical microstrip line modes," Doklady Akademii Nauk Ukrainskoi SSR, ser. A, no 10, pp. 43-46, 1986 (in Russian).
	8-11. A.I. Nosich, A.Y. Svezhentsev, V.P. Shestopalov, "Spectrum of quasi-TEM waves in a partially screened dielectric core," Soviet Physics Doklady, vol. 31, no 7, pp. 559-561, 1986.
	8-10. A.I. Nosich, A.Y. Poedinchuk, V.P. Shestopalov, "Discrete spectrum of the characteristic waves in open partially screened dielectric core," Soviet Physics Doklady, vol. 30, no 8, pp. 669-671, 1985.
	8-9. G.I. Komar, A.I. Nosich, V.P. Shestopalov, "Waveguiding properties of slotted image transmission lines," Soviet J. Communication Technology and Electronics , vol. 30, no 2, pp. (211-217), 1985.
	8-8. S.D. Andrenko, V.V. Kryzhanovsky, A.I. Nosich, V.P. Shestopalov, "Experimental investigation of the propagation of electromagnetic waves in a cylindrical slotted line," Radio Engn. and Electronic Physics, vol. 28, no 5, pp. 60-65, 1983. [pdf]
	8-7. A.I. Nosich, V.P. Shestopalov, "Characteristic impedance and energy losses in a cylindrical slotted transmission line," Radio Engn. and Electronic Physics, vol. 28, no 4, pp. 51-56, 1983.
	8-6. A.I. Nosich, V.P. Shestopalov, "Ohmic losses in transmission lines with thin conductors," Soviet Physics Doklady, vol. 25, no 2, pp. 127-128, 1980. [comment]
	8-5. A.I. Nosich, V.P. Shestopalov, "Waveguiding properties of open metallized dielectric transmission lines of the cylindrical type," Radio Engn. Electronic Physics, vol. 24, pp. 1-9, 1979.
	8-4. A.I. Nosich, V.P. Shestopalov, "Slot line," USSR Patent, 1979, no 698085.
	8-3. A.I. Nosich, V.P. Shestopalov, "A slotted circular microwave guide," Soviet Physics Doklady, vol. 23, no 7, pp. 505-506, 1978.
	8-2. E.I. Veliev, A.I. Nosich, V.P. Shestopalov, "Propagation of electromagnetic waves in a cylindrical waveguide with a longitudinal slit," Radio Engn. Electronic Physics, vol. 22, pp. 29-35, 1977.
	8-1. E.I. Veliev, A.I. Nosich, V.P. Shestopalov, "On the theory of the slot mode," Doklady Akademii Nauk Ukrainskoi SSR, ser. A, no 10, pp. 928-931, 1976 (in Russian).
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9.	Gratings - Scattering and Absorption
	9-7. 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]
	9-6. 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]
	9-5. V.O. Byelobrov, T.L. Zinenko, K. Kobayashi, A.I. Nosich, "Periodicity matters: grating or lattice resonances in the scattering by sparse arrays of sub-wavelength strips and wires," IEEE Antennas and Propagation Magazine, vol. 57, no 6, pp. 34-45, 2015. [pdf]
	9-4. V.O. Byelobrov, T.M. Benson, "Extraordinary high-Q resonances in the scattering by a dielectric slab containing a grating of circular cylinders," Int. J. Semiconductor Physics, Quantum Electronics, and Optoelectronics, Kiev, ISP NASU Press, vol. 17, no 1, pp. 100-105, 2014. [pdf]
	9-3. T.L. Zinenko, A.I. Nosich, "Plane wave scattering and absorption by flat gratings of impedance strips," IEEE Trans. Antennas and Propagation, vol. 54, no 7, pp. 2088-2095, 2006. [pdf with comments]
	9-2. T.L. Zinenko, A.I. Nosich, Y. Okuno, "Plane wave scattering and absorption by resistive-strip and dielectric-strip periodic gratings," IEEE Trans. Antennas and Propagation, vol. 46, no 10, pp. 1498-1505, 1998. [pdf with comments]
	9-1. E.I. Veliev, A.I. Nosich, V.P. Shestopalov, "Radiation of an electron flux moving over a grating consisting of cylinders with longitudinal slots," Radiophysics and Quantum Electronics , vol. 20, no 3, pp. 306-313, 1977. [pdf]
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10.	PEC and Resistive Screens and Cavities - Scattering and Absorption
	10-19. M. Lucido, A.I. Nosich, "Analytical regularization approach to plane wave diffraction from circular hole in infinite resistive plane," IEEE Trans. Antennas and Propagation, vol. 71, no 8, pp. 6878-6892, 2023. [pdf]
	10-18. M.V. Balaban, A.I. Nosich, "Radiation of complex electric and magnetic dipoles in the presence of a perfectly conducting disk," Radio Physics and Electronics, Kharkiv, IRE NASU Press, vol. 15, no 3, pp. 4-10, 2010 (in Russian). Translated to English in Telecommunications and Radio Engineering, Begell House Publ., vol. 72, no 10, pp. 841-852, 2013.
	10-17. M.V. Balaban, "Mathematical model of electromagnetic wave diffraction by a resistive disk," Radio Physics and Electronics, Kharkiv, IRE NASU Press, vol. 10, no 1, pp. 45-50, 2005 (in Russian). Translated to English in Telecommunications and Radio Engineering, Begell House Publ., vol. 65, no 11, pp. 967-976, 2006.
	10-16. A.E. Serebryannikov, A.I. Nosich, "TE-wave penetration into finite-thickness slotted circular cylinder with lossy and lossless inner coatings," IEEE Trans. Electromagnetic Compatibility, vol. 47, no 4, pp. 709-716, 2005. [pdf]
	10-15. A.E. Serebryannikov, A.I. Nosich, "TE-case RCS analysis of finite-thickness slotted circular cylinder loaded with lossy filling," IEEE Trans. Antennas and Propagation, vol. 53, no 4, pp. 1426-1434, 2005. [pdf]
	10-14. S. Koshikawa, D. Colak, A. Altintas, K. Kobayashi, A.I. Nosich, "A comparative study of RCS predictions of canonical rectangular and circular cavities with double-layer material loading," IEICE Trans. Electronics - Japan, vol. E80-C, no 11, pp. 1457-1466, 1997. Special Issue on Electromaqgnetic Theory [pdf]
	10-13. A.I. Nosich, Y. Okuno, T. Shiraishi, "Scattering and absorption of E and H-polarized plane waves by a circularly curved resistive strip," Radio Science, vol. 31, no 6, pp. 1733-1742, 1996. [pdf]
	10-12. K. Kobayashi, A.I. Nosich, "Radar cross section analysis of 2-D, canonical material-loaded cavity-backed apertures of rectangular and circular cross-section," Annales des Telecommunications, vol. 50, no 5-6, pp. 517-522, 1995. Special Issue on Radar Cross Section of Complex Objects [pdf]
	10-11. D. Colak, A.I. Nosich, A. Altintas, "Radar cross section study of cylindrical cavity-backed apertures with inner or outer material coating: the case of H-polarization," IEEE Trans. Antennas and Propagation, vol. 43, no 5, pp. 440-447, 1995. [pdf]
	10-10. A.I. Nosich, "On the theory of the two-dimensional Helmholtz resonator with a circular impedance surface," Acoustics of Non-Homogeneous Media, Novosibirsk: IHD Press, no 109, pp. 127-132, 1994 (in Russian).
	10-9. D. Colak, A.I. Nosich, A. Altintas, "Radar cross section study of cylindrical cavity-backed apertures with outer or inner material coating: the case of E-polarization," IEEE Trans. Antennas and Propagation, vol. 41, no 11, pp. 1551-1559, 1993. [pdf]
	10-8. N.V. Veremey, A.I. Nosich, V.V. Veremey, "TE excitation of an unclosed circular cylinder at the planar penetrable interface," Electromagnetics, vol. 13, no 2, pp. 169-186, 1993. [pdf]
	10-7. N.V. Veremey, A.I. Nosich, "Electrodymanic modelling of open resonators with diffraction gratings," Radiophysics and Quantum Electronics, vol. 32, no 2, pp. 166-172, 1989. [pdf]
	10-6. E.I. Veliev, V.V. Veremey, A.I. Nosich, V.P. Shestopalov, "Radar target," USSR Patent, 1985, no 1358022.
	10-5. E.I. Veliev, V.V. Veremey, A.I. Nosich, V.P. Shestopalov, "Trapping effect for an open screen illuminated by a fixed source," Radiophysics and Quantum Electronics, vol. 25, no 4, pp. 298-305, 1982. [pdf with comments]
	10-4. A.I. Nosich, "Diffraction radiation which accompanies the motion of charged particles near an open resonator," Radiophysics and Quantum Electronics, vol. 24, no 8, pp. 1014-1021, 1981. [pdf]
	10-3. A.I. Nosich, V.P. Shestopalov, "Resonant ponderomotive effects in the scattering and emission of electromagnetic waves," Soviet Physics Doklady, vol. 24, no 9, pp. 730-732, 1979.
	10-2. A.I. Nosich, "On the effect of resonances on the scattering characteristics of a nonclosed cylinder," Radiotekhnika i Elektronika, vol. 23, no 8, pp. 1733-1737, 1978 (in Russian).
	10-1. A.I. Nosich, V.P. Shestopalov, "An electromagnetic analog of a Helmholtz resonator," Soviet Physics Doklady, vol. 22, no 4, pp. 251-253, 1977. [pdf with comments]
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11.	PEC and Resistive Reflector Antennas - Scattering and Absorption
	11-11. V.S. Bulygin, T.M. Benson, Y.V. Gandel, A.I. Nosich, "Full-wave analysis and optimization of a TARA-like shield-assisted paraboloidal reflector antenna using a Nystrom-type method," IEEE Trans. Antennas and Propagation, vol. 61, no 10, pp. 4981-4989, 2013. [pdf]
	11-10. T. Oguzer, A. Altintas, A.I. Nosich, "Analysis of the elliptic profile cylindrical reflector with a non-uniform resistivity using the complex source and dual series approach: H-polarization case," Optical and Quantum Electronics, vol. 45, no 8, pp. 797-812, 2013. [pdf]
	11-9. T. Oguzer, A. Altintas, A.I. Nosich, "Integral equation analysis of an arbitrary-profile and variable-resistivity cylindrical reflector illuminated by an E-polarized complex-source-point beam," J. Optical Society of America A, vol. 26, no 7, pp. 1525-1533, 2009. [pdf]
	11-8. T. Oguzer, A.I. Nosich, A. Altintas, "Analysis of arbitrary conic section profile cylindrical reflector antenna, H-polarization case," IEEE Trans. Antennas and Propagation, vol. 52, no. 11, pp. 3156-3162, 2004. [pdf]
	11-7. T. Oguzer, A.I. Nosich, A. Altintas, "E-polarized beam scattering by an open cylindrical PEC strip having arbitrary "conical-section" profile", Microwave and Optical Technology Lett., vol. 31, no 6, pp. 480-484, 2001. [pdf]
	11-6. S.S. Vinogradov, E.D. Vinogradova, A.I. Nosich, A. Altintas, "Analytical regularization based analysis of a spherical reflector symmetrically illuminated by an acoustic beam," J. Acoustical Society America, vol. 107, no 6, pp. 2999-3005, 2000. [pdf]
	11-5. S.V. Boriskina, A.I. Nosich, A. Altintas, "Effect of the imperfect flat earth on the vertically-polarized radiation of a cylindrical reflector antenna," IEEE Trans. Antennas and Propagation, vol. 48, no 2, pp. 285-292, 2000. [pdf]
	11-4. V.B. Yurchenko, A. Altintas, A.I. Nosich, "Numerical optimization of a cylindrical reflector-in-radome antenna system," IEEE Trans. Antennas and Propagation, vol. 47, no 4, pp. 668-673, 1999. [pdf]
	11-3. S.V. Boriskina, "Numerical analysis of radiation properties of a reflector antenna near Earth's surface," Kharkiv State University Herald, 1998, no 405, pp. 71-74 (in Russian). Translated to English in Telecommunications and Radio Engineering, Begell House Publ., vol. 53, no 7-8, pp. 39-42, 1999.
	11-2. A.I. Nosich, V.B. Yurchenko, A. Altintas, "Numerically exact analysis of 2-D variable-resistivity reflector fed by a complex-point source," IEEE Trans. Antennas and Propagation, vol. 45, no 11, pp. 1592-1601, 1997. [pdf]
	11-1. T. Oguzer, A. Altintas, A.I. Nosich, "Accurate simulation of reflector antennas by complex source - dual series approach," IEEE Trans. Antennas and Propagation, vol. 43, no 8, pp. 793-801, 1995. [pdf with comments]	up

12.	PEC and Resistive Printed and Conformal Antennas - Scattering and Absorption
	12-12. M.P. Tikhenko, V.V. Radchenko, S.V. Dukhopelnykov, A.I. Nosich, "Radiation characteristics of a double-layer spherical dielectric lens antenna with a conformal PEC disk fed by on-axis dipoles," IET Microwaves, Antennas and Propagation, vol. 15, no 10, pp. 1249-1269, 2021. Special Issue on Method of Analytical Regularisation for New Frontiers of Applied Electromagnetics [pdf]
	12-11. V.V. Radchenko, R. Sauleau, A.I. Nosich, "Radiation and absorption of waves emitted by a radial dipole in the presence a layered dielectric sphere with a spherical screen," IET Microwaves, Antennas and Propagation, vol. 6, no 9, pp. 1063-1069, 2012. [pdf]
	12-10. S. Rondineau, A.I. Nosich, S.S. Vinogradov, J.-P. Daniel, M. Himdi, "MAR-based analysis of a spherical-circular printed antenna with a finite ground excited by an axially-symmetric probe," IEEE Trans. Antennas and Propagation, vol. 52, no 5, pp. 1270-1280, 2004. [pdf]
	12-9. V.V. Radchenko, "Radiation from a spherical-circular microstrip patch antenna excited by a slot," Radio Physics and Electronics, Kharkiv, IRE NASU Press, vol. 7, pp. 259-264, 2002 (in Russian). Translated to English in Telecommunications and Radio Engineering, Begell House Publ., vol. 59, no 7-9, pp. 42-56, 2003.
	12-8. N.Y. Bliznyuk, A.I. Nosich, "Numerical analysis of a dielectric disk antenna," Radio Physics and Electronics, Kharkiv, IRE NASU Press, vol. 5, no 1, pp. 49-54, 2000 (in Russian). Translated to English in Telecommunications and Radio Engineering, Begell House Publ., vol. 61, no 4, pp. 273-284, 2004.
	12-7. V.V. Radchenko, A.I. Nosich, J.-P. Daniel, S.S. Vinogradov, "Radiation of a dipole antenna on the surface of a partially screened layered sphere, axially symmetric case," Radio Physics and Electronics, Kharkiv, IRE NASU Press, vol. 5, no 1, pp. 42-48, 2000 (in Russian). Translated to English in Telecommunications and Radio Engineering, Begell House Publ., vol. 55, no 4, pp. 40-49, 2001.
	12-6. V.V. Radchenko, A.I. Nosich, J.-P. Daniel, S.S. Vinogradov, "A conformal spherical-circular microstrip antenna: axisymmetric excitation by an electric dipole," Microwave and Optical Technology Lett., vol. 26, no 3, pp. 176-182, 2000. [pdf]
	12-5. N.Y. Bliznyuk, A.I. Nosich, A.N. Khizhnyak, "Accurate computation of a circular-disk printed antenna axysimmetrically excited by an electric dipole," Microwave and Optical Technology Lett., vol. 25, no 3, pp. 211-216, 2000. [pdf]
	12-4. N.Y. Bliznyuk, A.I. Nosich, "Numerical analysis of a lossy circular microstrip antenna," Radio Physics and Electronics, Kharkiv, IRE NASU Press, vol. 4, no 3, pp. 125-128, 1999. Translated to English in Telecommunications and Radio Engineering, Begell House Publ., vol. 55, no 8, pp. 15-23, 2001.
	12-3. N.Y. Bliznyuk, "Numerical simulation of a microstrip disk antenna with axially-symmetric excitation," Radio Physics and Radio Astronomy, Kharkiv, IRA NASU Press, vol. 3, no 1, pp. 92-98, 1998 (in Russian). Translated to English in Telecommunications and Radio Engineering, Begell House Publ., vol. 51, no 9, pp. 6-14, 1997.
	12-2. L. Richard, A.I. Nosich, J.-P. Daniel, "Dielectric coating influence on the radiation of a narrow slot on a metallic cylinder," Automatika, Zagreb, vol. 39, no 1-2, pp. 17-21, 1998.
	12-1. N.Y. Bliznyuk, A.I. Nosich, "Basic properties of the fields excited by VED and HMD located in a dielectric substrate backed by a perfectly conducting ground plane," Microwave and Optical Technology Lett., vol. 15, no 5, pp. 316-320, 1997. [pdf with comments]
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13.	History of Microwaves
	13-9. G.B. Veselovska-Maiboroda, S.A. Velichko, A.I. Nosich, "The orbital X-band real-aperture side-looking radar of Cosmos-1500: a Ukrainian IEEE Milestone candidate," IEEE Geoscience and Remote Sensing Magazine, vol. 11, no 3, pp. 8-20, 2023. [pdf]
	13-8. A.I. Nosich, "Dramatic history and impact of decimeter-wave radar “Zenit” developed in Kharkiv in the 1930s," Proc. Int. Workshop Direct and Inverse Problems of Electromagnetic and Acoustic Wave Theory (DIPED-2017), Dnipro, 2017, pp. 11-14. [pdf]
	13-7. T.L. Zinenko, "Yevgeny M. Kuleshov, human delta-function in Ukrainian microwave science and technology," Proc. IEEE Ukraine Conf. Electrical Computer Eng. (UKRCON-2017), Kiev, 2017, pp. 1225-1228. [pdf]
	13-6. A.I. Nosich, A.A. Kostenko, "In the labor people's name: development of 60-kW magnetrons in the artificial famine plagued Ukraine in the early 1930s," Proc. Int. Conf. Origins and Evolution of the Cavity Magnetron (CAVMAG-2010), Bournemouth, 2010, pp. 82-88. [pdf]
	13-5. A.A. Kostenko, A.I. Nosich, P.F. Goldsmith, "Historical background and development of Soviet quasioptics at near-millimeter and sub-millimeter wavelengths," Ch. 15 in T. Sarkar (Ed.), History of Wireless, New York: Wiley, pp. 473-542, 2006. [pdf]
	13-4. A.A. Kostenko, A.I. Nosich, I.A. Tishchenko, "Magnetron and radar drama in Kharkov, Ukraine in the 1920-1930s," in H. Rohling (Ed.), 101 Years of Radar, Bonn: German Institute of Navigation, pp. 123-132, 2005.
	13-3. I.A. Tishchenko, A.I. Nosich, "Early quasioptics of near-millimeter and submillimeter waves in IRE-Kharkov, Ukraine: From ideas to the microwave pioneer award," IEEE Microwave Magazine, vol. 4, no. 4, pp. 32-44, 2003. [pdf]
	13-2. A.I. Nosich, Y.M. Poplavko, D.M. Vavriv, F.J. Yanovsky, "Microwaves in Ukraine," IEEE Microwave Magazine, vol. 2, no. 4, pp. 82-90, 2002. [pdf]
	13-1. A.A. Kostenko, A.I. Nosich, I.A. Tishchenko, "Development of the first Soviet three-coordinate L-band pulsed radar in Kharkov before WWII," IEEE Antennas and Propagation Magazine, vol. 44, no. 3, pp. 29-48, 2001. [pdf]
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14.	Others
	14-3. M.V. Balaban, A.V. Somov, "Increasing the directivity of a circular antenna array," Radio Physics and Electronics, IRE NASU, Kharkiv, vol. 19, no 3, pp. 9-19, 2010 (in Russian). Translated into English in Telecommunications and Radio Engineering, Begell House Publ., vol. 74, no 13, pp. 1129-1146, 2015.
	14-2. G.W. Hanson, A.I. Nosich, Y.M. Karchevskii, "Green's function expansions in dyadic root functions for shielded layered waveguide problems obtained via residue theory," Progress in Electromagnetic Research, vol. 39, pp. 61-91, 2003.
	14-1. A.E. Serebryannikov, A.I. Nosich, D.M. Vavriv, "Limiting parameters of groove modes of a magnetron-type cavity," J. Electromagnetic Waves and Applications, vol. 12, no 9, pp. 1203-1216, 1998.
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