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Makeeva Galina Stepanovna

Publications in Math-Net.Ru

  1. Tunable polarization magneto-optical effects at scattering of terahertz radiation on graphene nanoribbon gratings in a magnetic field

    University proceedings. Volga region. Physical and mathematical sciences, 2025, no. 3,  45–65
  2. Magnetoplasmonic effects at the diffraction of terahertz waves on magnetically biased graphene metasurfaces

    University proceedings. Volga region. Physical and mathematical sciences, 2025, no. 2,  116–133
  3. Graphene magnetoplasmonics as a platform for creating thz and mid-ir devices with combined electrical and magnetic tuning (overview of the problem)

    University proceedings. Volga region. Physical and mathematical sciences, 2024, no. 4,  118–140
  4. Electronic control of directional properties of reconfigurable plasmonic graphene-based antenna arrays with frequency scanning in the mid-IR range

    University proceedings. Volga region. Physical and mathematical sciences, 2024, no. 3,  86–106
  5. Forming the diagrams of electrically tunable plasmonic graphene stripe nanoantennas in the terahertz and far-, mid-infrared ranges

    University proceedings. Volga region. Physical and mathematical sciences, 2024, no. 2,  91–102
  6. Reconfigurable nonlinear photonic devices based on nanostructured graphene (review)

    University proceedings. Volga region. Physical and mathematical sciences, 2023, no. 4,  115–136
  7. Bifurcation analysis of the thresholds of parametric generation of terahertz waves in nonlinear multilayer graphene nanostructures

    University proceedings. Volga region. Physical and mathematical sciences, 2023, no. 3,  127–142
  8. Electronic beam control and frequency scanning of graphene antenna arrays in the terahertz and far infrared frequency ranges

    University proceedings. Volga region. Physical and mathematical sciences, 2023, no. 1,  105–114
  9. Optimization of parameters and characteristics of broadband thz absorbers based on 2$d$ lattices of graphene ribbons on multilayer substrates

    Optics and Spectroscopy, 129:3 (2021),  342–349
  10. Generation of third harmonic of terahertz waves by a nonlinear graphene multilayer metasurface

    Optics and Spectroscopy, 129:1 (2021),  89–91
  11. Polarization effects and resonance absorption in terahertz wave diffraction on graphene metasurfaces

    Optics and Spectroscopy, 125:6 (2018),  838–843
  12. Controlled absorbers for terahertz spectral range based on resonance absorption in periodic multilayer graphene structures

    Pisma v Zhurnal Tekhnicheskoi Fiziki, 44:18 (2018),  103–110
  13. Interaction of terahertz electromagnetic waves with periodic gratings of graphene micro- and nanoribbons

    Zhurnal Tekhnicheskoi Fiziki, 86:2 (2016),  119–126
  14. Mathematical modeling of tuned thz polarizers based on the periodic 2D structures of rectangular graphene nanoribbons

    University proceedings. Volga region. Physical and mathematical sciences, 2015, no. 2,  203–216
  15. Electrodynamic calculation of a complex coefficient of electromagnetic wave propagation in the waveguiding structure “carbon nanotube - graphene” in terahertz and infrared ranges

    University proceedings. Volga region. Physical and mathematical sciences, 2015, no. 1,  140–155
  16. Electrodynamic calculation of transmission coefficients for TEM-wave through the multilayer periodic graphene-dielectric structures at teraherz frequency range

    University proceedings. Volga region. Physical and mathematical sciences, 2014, no. 4,  108–122
  17. ̀athematical modeling of teraherz radiation transmission through the graphene monolayers

    University proceedings. Volga region. Physical and mathematical sciences, 2014, no. 3,  145–158
  18. Interaction of teraherz radiation with 3D arrays of magnetic nanoparticle-filled carbon nanotubes

    University proceedings. Volga region. Physical and mathematical sciences, 2014, no. 2,  114–131
  19. Bifurcation analysis of parametric instability of waves in the 3D arrays of magnetic nanoparticle-filled carbon nanotubes at microwave frequency range

    University proceedings. Volga region. Physical and mathematical sciences, 2014, no. 2,  101–113
  20. Electrodynamic calculation of the complex effective permeability of nanocomposites based on the arrays of carbon nanotubes in the microwave frequency range

    University proceedings. Volga region. Physical and mathematical sciences, 2014, no. 1,  141–155
  21. Electrodynamic calculation of microwave transmission coefficients of mode $H_{10}$ through slab of nanostructured material based on the 3D-array of ferromagnetic nanowires

    University proceedings. Volga region. Physical and mathematical sciences, 2013, no. 4,  162–173
  22. Mathematical modelling of electromagnetic wave propagation in anisotropic nanostructured materials on the basis of 3dlattices of magnetic nanowires in the microwave range

    University proceedings. Volga region. Physical and mathematical sciences, 2013, no. 3,  170–188
  23. The effect of magnetostatic dipole-dipole and exchange interactions in ferromagnetic nanoparticle systems on the effective magnetic permeability of a 3D nanocomposite

    University proceedings. Volga region. Physical and mathematical sciences, 2012, no. 4,  150–161
  24. Probabilistic model of microwave magnetic resonance in $3D$-magnetic nanocomposites from opal matrices

    University proceedings. Volga region. Physical and mathematical sciences, 2012, no. 2,  195–208
  25. Electrodynamic analysis of transmission bands and band gaps in the spectrum of an optical filter based on a photonic crystal

    University proceedings. Volga region. Physical and mathematical sciences, 2011, no. 4,  168–176
  26. Electrodynamic calculation of the s-parameters of the scattering matrix of a 3D magnetic nanostructure in a waveguide

    University proceedings. Volga region. Physical and mathematical sciences, 2011, no. 4,  160–167
  27. Electrodynamic analysis of transmission zones and forbidden zones in the spectrum of an optical filter based on a photonic crystal

    University proceedings. Volga region. Physical and mathematical sciences, 2010, no. 4,  131–140
  28. Electrodynamic analysis of electromagnetic wave propagation in 3D magnetic nanocomposites based on opal matrices

    University proceedings. Volga region. Physical and mathematical sciences, 2010, no. 2,  126–135
  29. Spin dynamics in lattices of ferromagnetic metal nanowires under skin effect conditions in the terahertz frequency range

    University proceedings. Volga region. Physical and mathematical sciences, 2010, no. 2,  117–125
  30. Electrodynamic calculation of ferromagnetic resonance in magnetic composite nanomaterials based on lattices of ferromagnetic nanospheres

    University proceedings. Volga region. Physical and mathematical sciences, 2009, no. 2,  102–109
  31. A computational algorithm for determining the descriptors of autonomous blocks with magnetic nanoclusions and Floquet channels

    University proceedings. Volga region. Physical and mathematical sciences, 2009, no. 2,  91–101
  32. Electrodynamic calculation of parameters of the scattering matrix of the periodic lattice of ferromagnetic nanowires in the infrared range

    University proceedings. Volga region. Physical and mathematical sciences, 2009, no. 1,  113–120
  33. Electrodynamic calculation of the nonlinearity thresholds of microwave magnetic nanolattices based on the bifurcation points of the nonlinear Maxwell operator

    University proceedings. Volga region. Physical and mathematical sciences, 2008, no. 2,  107–113
  34. Analysis of propagation and diffraction of electromagnetic waves in microwave magnetic nanostructures

    University proceedings. Volga region. Physical and mathematical sciences, 2008, no. 1,  110–121

© Steklov Math. Inst. of RAS, 2026