#### Publications of LMNO Classified by Topics

Method of analytical regularization and Nystrom-type methods

Micro and nano lasers – LEPs

Plasmon and periodicity assisted optical sensors – scattering and absorption

Graphene-based THz antennas and sensors – scattering and absorption

Dielectric screens, lenses and radomes – scattering and absorption

Dielectric open resonators – eigenvalue problems

Open waveguides – scattering and absorptions

Open waveguides – eigenvalue problems

Gratings – scattering and absorptionPEC and resistive screens and cavities – scattering and absorption

PEC and resistive reflector antennas – scattering and absorption

PEC and resistive printed and conformal antennas – scattering and absorption

History of microwavesOthers

#### Method of Analytical Regularization (MAR) and Nystrom-type Methods

**1-14.** 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]**

**1-13.** 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]**

**1-12.** 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]**

**1-11.** 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]**

**1-10.** 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]**

**1-9.** 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]**

**1-8.** 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]**

**1-7.** 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]**

**1-6.** 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]**

**1-4.** S.V. Boriskina, A.I. Nosich, "Method of analytical regularization in the problems of wave scattering by dielectric cylinders of arbitrary cross section," *Radio Physics and Radio Astronomy*, Kharkov: IRA Press, vol. 3, no 4, pp. 405-412, 1998 (in Russian). **[comment]**

**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.

**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).

#### Micro and Nano Lasers – Lasing Eigenvalue Problems (LEP)

**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. 438, 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. 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. Optical Society 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. 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. 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. Optical Society 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,

**2-3.** 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. 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. 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]**

#### Plasmon and Periodicity Assisted Optical Nano-Sensors on Metal Strips and Wires – Scattering and Absorption

**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] **

#### Graphene-Based Terahertz Antennas and Sensors – Scattering and Absorption

**4-8.** S.V. Dukhopelnikov, R. Sauleau, A.I. Nosich, "Integral equation analysis of terahertz RCS of circular dielectric rod with partial graphene cover," *IEEE Trans. Antennas and Propagation,* 2019, submitted (# ). ** **

**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, pp. 035008/11, 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, pp. 055105/8, 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, pp. 055604/8, 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, pp. 114007/9, 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]**

#### Dielectric Screens, Lenses, Prisms and Radomes – Scattering and Absorption

**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]**

#### Dielectric Open Resonators – Complex-Frequency Eigenvalue Problems

**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]**

#### Open Waveguides – Scattering and Absorption by Inhomogeneities

**7-17.** 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,"* IEEE Trans. Antennas and Propagation*, 2019, submitted. ** **

**7-16.** 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,"* 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]**

#### 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).

#### Gratings – Scattering and Absorption

**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]**

#### PEC and Resistive Screens and Cavities – Scattering and Absorption

**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]**

#### 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]**

#### PEC and Resistive Printed and Conformal Antennas – Scattering and Absorption

**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]**

#### History of Microwaves

**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]**

#### 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.