федеральное государственное автономное образовательное учреждение высшего образования
«Самарский национальный исследовательский университет имени академика С.П. Королева»

Налимов Антон Геннадьевич

  • Кафедра технической кибернетики, доцент
  • НИЛ-35 (Научно-исследовательская лаборатория автоматизированных систем научных исследований), старший научный сотрудник
  • Телефон: +7 (846) 332-57-87
  • Email: nalimov.ag@ssau.ru
  • Адрес: Корпус 1 ул. Молодогвардейская, 151

Scopus/WoS

2024
2023
  • 1 Nalimov A.G., Kotlyar V.V., Stafeev S.S. A metalens-based optical polarization sensor // Computer Optics 2023. — Vol. 47. Issue 2. № 2. — P. 208-214
  • 2 Kotlyar V.V., Nalimov A.G., Kovalev A.A. Controlling the Spin Hall Effect in the Sharp Focus of an Axial Superposition of Two Optical Vortices with Left- and Right-Handed Circular Polarization // Applied Sciences (Switzerland) 2023. — Vol. 13. Issue 14. № 14.
  • 3 Nalimov A.G., Kotlyar V.V. Multifocal metalens for detecting several topological charges at different wavelengths // Computer Optics 2023. — Vol. 47. Issue 2. № 2. — P. 201-207
  • 4 Nalimov A., Stafeev S., Kotlyar V. etc. Optical Sensor Methodology for Measuring Shift, Thickness, Refractive Index and Tilt Angle of Thin Films // PHOTONICS 2023. — Vol. 10. Issue 6. № 6.
  • 5 Nalimov A.G., Kotlyar V.V., Khanenko Y.V. Calculation of the intensity at the sharp focus of a cylindrical vector beam by three methods // Computer Optics 2023. — Vol. 47. Issue 5. № 5. — P. 734-741
  • 6 Kovalev A.A., Kotlyar V.V., Nalimov A.G. Spin Hall Effect in Paraxial Vectorial Light Beams with an Infinite Number of Polarization Singularities // MICROMACHINES 2023. — Vol. 14. Issue 7. № 7.
  • 7 Nalimov A., Kotlyar V., Stafeev S. etc. Metalens for Detection of a Topological Charge // Optical Memory and Neural Networks (Information Optics) 2023. — Vol. 32. — P. S187-S194
2022
  • 1 Nalimov A.G., Kotlyar V.V. Influence of optical "dipoles" on the topological charge of a field with a fractional initial charge // Journal of the Optical Society of America A: Optics and Image Science, and Vision 2022. — Vol. 39. Issue 5. — P. 812-819
  • 2 Kotlyar V., Nalimov A., Kovalev A. etc. Optical Polarization Sensor Based on a Metalens // Sensors (Switzerland) 2022. — Vol. 22. Issue 20. № 20.
  • 3 Kotlyar V.V., Abramochkin E.G., Kovalev A.A. etc. Astigmatic transformation of a fractional-order edge dislocation // Computer Optics 2022. — Vol. 46. Issue 4. № 4. — P. 522-530
  • 4 Kotlyar V.V., Kovalev A.A., Nalimov A.G. Control of an orbital angular momentum of a Gaussian beam using zero intensity lines // Proceedings of SPIE - The International Society for Optical Engineering. — 2022. — Vol. 12295.
  • 5 Kotlyar V.V., Kovalev A.A., Stafeev S.S. etc. Tightly focusing vector beams containing V-point polarization singularities // Optics and laser technology 2022. — Vol. 145.
  • 6 Kotlyar V.V., Kovalev A.A., Nalimov A.G. Superposition of Two Converging and Diverging Coaxial Hypergeometric Beams // Atmospheric and Oceanic Optics 2022. — Vol. 35. Issue 3. — P. 212-217
  • 7 Kotlyar V.V., Abramochkin E.G., Kovalev A.A. etc. An astigmatic transform of a fractional-order edge dislocation // Journal of Optics 2022. — Vol. 24. Issue 6.
  • 8 Kotlyar V.V., Kovalev A.A., Nalimov A.G. etc. Topological Charge of Multi-Color Optical Vortices // PHOTONICS 2022. — Vol. 9. Issue 3.
  • 9 Stafeev S.S., Nalimov A.G., Kovalev A.A. etc. Circular Polarization near the Tight Focus of Linearly Polarized Light // PHOTONICS 2022. — Vol. 9. Issue 3.
  • 10 Nalimov A., Kotlyar V. Ultra-Thin, Short-Focus, and High-Aperture Metalens for Generating and Detecting Laser Optical Vortices // NANOMATERIALS 2022. — Vol. 12. Issue 15. № 15.
  • 11 Kotlyar V., Kovalev A., Nalimov A. etc. Preservation of Optical Vortex OAM after Distortion by a Diaphragm // Proceedings of the 2022 International Conference on Electrical Engineering and Photonics, EExPolytech 2022. — 2022. — P. 305-309
  • 12 Nalimov A.G., Kotlyar V.V. Topological charge of optical vortices in the far field with an initial fractional charge: optical "dipoles" // Computer Optics 2022. — Vol. 46. Issue 2. — P. 185-195
  • 13 Kotlyar V.V., Nalimov A.G. Evolution of a fractional-charge optical vortex upon free-space propagation // OPTIK 2022. — Vol. 261.
  • 14 Kotlyar V.V., Kovalev A.A., Nalimov A.G. Optical Vortex Beams with a Symmetric OAM Spectrum beyond a Sector Aperture // PHOTONICS 2022. — Vol. 9. Issue 10. № 10.
  • 15 Nalimov A.G., Kotlyar V.V. Effect of Optical “Dipoles” on the Topological Charge of a Beam // Nanobiotechnology Reports 2022. — Vol. 17. Issue 6. № 6. — P. 915-919
  • 16 Kotlyar V.V., Kovalev A.A., Nalimov A.G. Superposition of two Laguerre-Gaussian beams shifted from the optical axis // Computer Optics 2022. — Vol. 46. Issue 3. № 3. — P. 366-374
2021
  • 1 Kotlyar V.V., Stafeev S.S., Nalimov A.G. Focusing of a vector beam with c-lines of polarization singularity // Computer Optics 2021. — Vol. 45. Issue 6. — P. 800-808
  • 2 Stafeev S.S., Kozlova E.S., Nalimov A.G. etc. Tight focusing of second-order cylindrical vector beam by Mikaelian lens // Journal of Physics: Conference Series. — 2021. — Vol. 1745. Issue 1.
  • 3 Kotlyar V.V., Nalimov A.G. Evolution of an optical vortex with initial fractional topological charge // Computer Optics 2021. — Vol. 45. Issue 1. — P. 5-12
  • 4 Kotlyar V.V., Kovalev A.A., Nalimov A.G. Astigmatic transformation of a set of edge dislocations embedded in a gaussian beam // Computer Optics 2021. — Vol. 45. Issue 2. — P. 190-199
  • 5 Kotlyar V.V., Stafeev S.S., Nalimov A.G. etc. A dual-functionality metalens to shape a circularly polarized optical vortex or a second-order cylindrical vector beam // Photonics and Nanostructures - Fundamentals and Applications 2021. — Vol. 43.
  • 6 Kotlyar V.V., Nalimov A.G., Stafeev S.S. etc. Sharp focusing of beams with v-point polarization singularities // Computer Optics 2021. — Vol. 45. Issue 5. — P. 643-653
  • 7 Kotlyar V.V., Nalimov A.G. Focusing a vortex laser beam and converting linear to circular polarization // Laser physics 2021. — Vol. 31. Issue 11.
  • 8 Kovalev A.A., Kotlyar V.V., Nalimov A.G. Topological charge and asymptotic phase invariants of vortex laser beams // PHOTONICS 2021. — Vol. 8. Issue 10.
  • 9 Kotlyar V.V., Kovalev A.A., Nalimov A.G. Optical phase singularities going to and coming from infinity with a higher-than-light speed // Computer Optics 2021. — Vol. 45. Issue 5. — P. 654-660
  • 10 Kovalev A.A., Kotlyar V.V., Kalinkina D.S. etc. Off-axis elliptic gaussian beams with an intrinsic orbital angular momentum // Computer Optics 2021. — Vol. 45. Issue 6. — P. 809-817
  • 11 Nalimov A.G., Stafeev S.S. Linear to circular polarization conversion in the sharp focus of an optical vortex // Computer Optics 2021. — Vol. 45. Issue 1. — P. 13-18
  • 12 Kotlyar V.V., Kovalev A.A., Nalimov A.G. Optical phase singularities 'going to' infinity with a higher-than-light speed // Journal of Optics 2021. — Vol. 23. Issue 10.
  • 13 Kotlyar V.V., Stafeev S.S., Nalimov A.G. Sharp focusing of a hybrid vector beam with a polarization singularity // PHOTONICS 2021. — Vol. 8. Issue 6.
  • 14 Stafeev S.S., Nalimov A.G., Zaitsev V.D. etc. Tight focusing cylindrical vector beams with fractional order // Journal of the Optical Society of America B: Optical Physics 2021. — Vol. 38. Issue 4. — P. 1090-1096
  • 15 Kotlyar V.V., Kovalev A.A., Nalimov A.G. Transformation of a high-order edge dislocation to optical vortices (Spiral dislocations) // Computer Optics 2021. — Vol. 45. Issue 3. — P. 319-323
  • 16 Kotlyar V.V., Kovalev A.A., Nalimov A.G. Converting an nth-order edge dislocation to a set of optical vortices // OPTIK 2021. — Vol. 243.
  • 17 Kotlyar V.V., Nalimov A.G., Stafeev S.S. Focusing a vortex laser beam with polarization conversion // PHOTONICS 2021. — Vol. 8. Issue 11.
  • 18 Kotlyar V.V., Kovalev A.A., Nalimov A.G. Conservation of the half-integer topological charge on propagation of a superposition of two Bessel-Gaussian beams // Physical Review A 2021. — Vol. 104. Issue 3.
  • 19 Stafeev S.S., Nalimov A.G., Kotlyar V.V. etc. Metalens for energy backflow // Proceedings of SPIE - The International Society for Optical Engineering. — 2021. — Vol. 11793.
  • 20 Kotlyar V.V., Stafeev S.S., Kozlova E.S. etc. Spin-orbital conversion of a strongly focused light wave with high-order cylindrical–circular polarization // Sensors (Switzerland) 2021. — Vol. 21. Issue 19.
2020
  • 1 Nalimov A.G. Optical force acting on a particle in the presence of a backward energy flow near the focus of a gradient lens // Computer Optics 2020. — Vol. 44. Issue 6. — P. 871-875
  • 2 Stafeev S.S., Kozlova E.S., Nalimov A.G. etc. Poynting vector behavior of cylindrical vector beam focused by gradient index lens // International Conference on Transparent Optical Networks. — 2020. — Vol. 2020-July.
  • 3 Nalimov A., Kotlyar V., Stafeev S. Torque on an ellipsoidal dielectric particle in a gaussian beam with circular polarization // International Conference on Transparent Optical Networks. — 2020. — Vol. 2020-July.
  • 4 Kotlyar V.V., Nalimov A.G., Kovalev A.A. etc. Spin-orbit and orbit-spin conversion in the sharp focus of laser light: Theory and experiment // Physical Review A 2020. — Vol. 102. Issue 3.
  • 5 Nalimov A.G., Stafeev S.S., Kotlyar V.V. Optical force acting on a particle in a reverse energy flow near the focus of a gradient lens // Journal of Optics 2020. — Vol. 22. Issue 11.
  • 6 Nalimov A.G., Kotlyar V.V. Rotation of an ellipsoidal dielectric particle in the focus of a circularly polarized gaussian beam // OPTIK 2020. — Vol. 222.
  • 7 Stafeev S.S., Kozlova E.S., Nalimov A.G. etc. Tight focusing of a cylindrical vector beam by a hyperbolic secant gradient index lens // Optics Letters 2020. — Vol. 45. Issue 7. — P. 1687-1690
  • 8 Nalimov A.G., Kozlova E.S. Inversion of the longitudinal component of spin angular momentum in the focus of a left-handed circularly polarized beam // Computer Optics 2020. — Vol. 44. Issue 5. — P. 699-706
  • 9 Kotlyar V.V., Kovalev A.A., Nalimov A.G. etc. Evolution of an optical vortex with an initial fractional topological charge // Physical Review A 2020. — Vol. 102. Issue 2.
  • 10 Stafeev S.S., Nalimov A.G., Kotlyar V.V. Strong negative longitudinal component of the Poynting vector in a tightly focused cylindrical vector beam // Journal of Physics: Conference Series. — 2020. — Vol. 1461. Issue 1.
  • 11 Kotlyar V.V., Stafeev S.S., Nalimov A.G. Vortex energy flow in the tight focus of a non-vortex field with circular polarization // Computer Optics 2020. — Vol. 44. Issue 1. — P. 5-11
  • 12 Kudryashov S., Danilov P., Rupasov A. etc. Energy deposition parameters revealed in the transition from 3D to 1D femtosecond laser ablation of fluorite at high-NA focusing // Optical Materials Express 2020. — Vol. 10. Issue 12. — P. 3291-3305
  • 13 Kotlyar V.V., Stafeev S.S., Nalimov A.G. etc. Experimental investigation of the energy backflow in the tight focal spot // Computer Optics 2020. — Vol. 44. Issue 6. — P. 863-870
  • 14 Kotlyar V.V., Nalimov A.G., Stafeev S.S. etc. Orbital energy and spin flows in a strong focus of laser light // IEEE PHOTONICS JOURNAL 2020. — Vol. 12. Issue 5.
  • 15 Kotlyar V.V., Nalimov A.G., Stafeev S.S. Inversion of the axial projection of the spin angular momentum in the region of the backward energy flow in sharp focus // Optics Express 2020. — Vol. 28. Issue 23. — P. 33830-33840
  • 16 Nalimov A., Kotlyar V., Stafeev S. Optimizing of Poynting vector and light intensity after secant gradient lens // Proceedings of ITNT 2020 - 6th IEEE International Conference on Information Technology and Nanotechnology. — 2020. —
  • 17 Nalimov A.G., Stafeev S.S. Energy flux of a vortex field focused using a secant gradient lens // Computer Optics 2020. — Vol. 44. Issue 5. — P. 707-711
  • 18 Kotlyar V.V., Nalimov A.G., Kovalev A.A. etc. Transfer of spin angular momentum to a dielectric particle // Computer Optics 2020. — Vol. 44. Issue 3. — P. 333-342
  • 19 Kotlyar V.V., Stafeev S.S., Nalimov A.G. etc. Mechanism of formation of an inverse energy flow in a sharp focus // Physical Review A 2020. — Vol. 101. Issue 3.
  • 20 Nalimov A.G., Stafeev S.S. Rotation of an elliptical dielectric particle in the focus of a circularly polarized gaussian beam // Computer Optics 2020. — Vol. 44. Issue 4. — P. 561-567
  • 21 Stafeev S.S., Kozlova E.S., Nalimov A.G. Focusing a second-order cylindrical vector beam with a gradient index mikaelian lens // Computer Optics 2020. — Vol. 44. Issue 1. — P. 29-33
2019
  • 1 Stafeev S.S., Kotlyar V.V., Nalimov A.G. etc. The Non-Vortex Inverse Propagation of Energy in a Tightly Focused High-Order Cylindrical Vector Beam // IEEE PHOTONICS JOURNAL 2019. — Vol. 11. Issue 4.
  • 2 Kotlyar V.V., Stafeev S.S., Nalimov A.G. Energy backflow in the focus of a light beam with phase or polarization singularity // Physical Review A 2019. — Vol. 99. Issue 3.
  • 3 Kotlyar V.V., Nalimov A.G., Stafeev S.S. Exploiting the circular polarization of light to obtain a spiral energy flow at the subwavelength focus // Journal of the Optical Society of America B: Optical Physics 2019. — Vol. 36. Issue 10. — P. 2850-2855
  • 4 Stafeev S.S., Kotlyar V.V., Nalimov A.G. etc. Focusing of laser light by sectoral spiral metalens // Proceedings of SPIE - The International Society for Optical Engineering. — 2019. — Vol. 11025.
  • 5 Kotlyar V.V., Stafeev S.S., Nalimov A.G. etc. Two-petal laser beam near a binary spiral axicon with topological charge 2 // Optics and laser technology 2019. — Vol. 119.
  • 6 Stafeev S.S., Nalimov A.G., Kotlyar V.V. Tight Focusing of a Second-order Cylindrical Vector Beam // Progress in Electromagnetics Research Symposium. — 2019. — Vol. 2019-June. — P. 3254-3257
  • 7 Kotlyar V.V., Nalimov A.G., Stafeev S.S. Backward Energy Flux in Sharp Focus of Beams with Linear and Circular Polarization // Progress in Electromagnetics Research Symposium. — 2019. — Vol. 2019-June. — P. 335-338
  • 8 Kotlyar V.V., Stafeev S.S., Nalimov A.G. etc. Subwavelength grating-based spiral metalens for tight focusing of laser light // Applied Physics Letters 2019. — Vol. 114. Issue 14.
  • 9 Kotlyar V.V., Stafeev S.S., Nalimov A.G. etc. Formation of the reverse flow of energy in a sharp focus // Computer Optics 2019. — Vol. 43. Issue 5. — P. 714-722
  • 10 Nalimov A.G., Kotlyar V.V. Sharp focus of a circularly polarized optical vortex at the output of a metalens illuminated by linearly polarized light // Computer Optics 2019. — Vol. 43. Issue 4. — P. 528-534
  • 11 Kotlyar V.V., Nalimov A.G., Stafeev S.S. etc. Single metalens for generating polarization and phase singularities leading to a reverse flow of energy // Journal of Optics 2019. — Vol. 21. Issue 5.
  • 12 Stafeev S.S., Kotlyar V.V., Nalimov A.G. Energy backflow in in a tightly focused high-order cylindrical vector beam // Proceedings of SPIE - The International Society for Optical Engineering. — 2019. — Vol. 11025.
  • 13 Stafeev S.S., Nalimov A.G., Kotlyar V.V. Metalens for polarization conversion and focusing of laser light // Journal of Physics: Conference Series. — 2019. — Vol. 1368. Issue 2.
  • 14 Stafeev S.S., Nalimov A.G., O'Faolain L. etc. Sector Metalens for Sharp Focusing of Laser Light // Progress in Electromagnetics Research Symposium. — 2019. — Vol. 2019-June. — P. 4248-4251
  • 15 Kotlyar V.V., Nalimov A.G., Stafeev S.S. Comparison of backward flow values in the sharp focus of light fields with polarization and phase singularity // Computer Optics 2019. — Vol. 43. Issue 2. — P. 174-183
2018
  • 1 Kotlyar V.V., Nalimov A.G., Kovalev A.A. Helical reverse flux of light of a focused optical vortex // Journal of Optics 2018. — Vol. 20. Issue 9.
  • 2 Nalimov A.G., Kotlyar V.V. Design of a sector-variant high-numerical-aperture micrometalens // OPTIK 2018. — Vol. 159. — P. 9-13
  • 3 Kotlyar V.V., Nalimov A.G., Stafeev S.S. The near-axis backflow of energy in a tightly focused optical vortex with circular polarization // Computer Optics 2018. — Vol. 42. Issue 3. — P. 392-400
  • 4 Stafeev S.S., Nalimov A.G., Kotlyar V.V. Energy Backflow in Tightly Focused Optical Vortex // International Conference on Transparent Optical Networks. — 2018. — Vol. 2018-July.
  • 5 Stafeev S.S., Nalimov A.G., Kotlyar V.V. Negative longitudinal component of the Poynting vector of tightly focused optical vortex // Proceedings - International Conference Laser Optics 2018, ICLO 2018. — 2018. — P. 204
  • 6 Kotlyar V.V., Nalimov A.G. Sharp focusing of vector optical vortices using a metalens // Journal of Optics 2018. — Vol. 20. Issue 7.
  • 7 Stafeev S.S., Nalimov A.G. Longitudinal component of the poynting vector of a tightly focused optical vortex with circular polarization // Computer Optics 2018. — Vol. 42. Issue 2. — P. 190-196
  • 8 Stafeev S.S., Nalimov A.G., O'faolain L. etc. Effects of fabrication errors on the focusing performance of a sector metalens // Computer Optics 2018. — Vol. 42. Issue 6. — P. 970-976
  • 9 Nalimov A.G., Kotlyar V.V., Kononenko T.V. etc. An X-ray diamond focuser based on an array of three-component elements // Computer Optics 2018. — Vol. 42. Issue 6. — P. 933-940
  • 10 Kotlyar V.V., Nalimov A.G., Stafeev S.S. Energy backflow in the focus of an optical vortex // Laser physics 2018. — Vol. 28. Issue 12.
  • 11 Kotlyar V.V., Kovalev A.A., Nalimov A.G. Energy density and energy flux in the focus of an optical vortex: Reverse flux of light energy // Optics Letters 2018. — Vol. 43. Issue 12. — P. 2921-2924
  • 12 Stafeev S.S., Nalimov A.G., O'Faolain L. etc. Subwavelength focusing of azimuthally polarized optical vortex // Proceedings of SPIE - The International Society for Optical Engineering. — 2018. — Vol. 10774.
  • 13 Kotlyar V.V., Nalimov A.G. A spirally rotating backward flow of light // Computer Optics 2018. — Vol. 42. Issue 4. — P. 527-533
  • 14 Stafeev S.S., Nalimov A.G., O'Faolain L. etc. Tight focusing of a nonhomogeneously polarized optical vortex // Progress in Biomedical Optics and Imaging - Proceedings of SPIE. — 2018. — Vol. 10717.
  • 15 Kotlyar V.V., Kovalev A.A., Nalimov A.G. Backward flow of energy for an optical vortex with arbitrary integer topological charge // Computer Optics 2018. — Vol. 42. Issue 3. — P. 408-413
  • 16 Stafeev S.S., Nalimov A.G., Kotlyar V.V. Longitudinal component of the Poynting vector of tightly focused cylindrical vector beam // Journal of Physics: Conference Series. — 2018. — Vol. 1135. Issue 1.
  • 17 Stafeev S.S., Nalimov A.G., Kotlyar V.V. Energy backflow in the focal spot of a cylindrical vector beam // Computer Optics 2018. — Vol. 42. Issue 5. — P. 744-750
  • 18 Stafeev S.S., Nalimov A.G., Kotlyar M. V. etc. Subwavelength Gratings for Polarization Control // Journal of Physics: Conference Series. — 2018. — Vol. 1096. Issue 1.
2017
  • 1 Kotlyar V.V., Stafeev S.S., Nalimov A.G. etc. Tight focusing of circularly polarized laser light by amplitude zone plate with chromium rings // Progress in Electromagnetics Research Symposium. — 2017. — Vol. 2017-November. — P. 2501-2505
  • 2 Stafeev S.S., Nalimov A.G., O’Faolain L. etc. Binary diffraction gratings for controlling polarization and phase of laser light [review] // Computer Optics 2017. — Vol. 41. Issue 3. — P. 299-314
  • 3 Nalimov A.G., Kotlyar V.V., Konov V.I. Simulation of hard X-ray focusing using an array of cylindrical micro-holes in a diamond film // Computer Optics 2017. — Vol. 41. Issue 6. — P. 796-802
  • 4 Kotlyar V.V., Stafeev S.S., Nalimov A.G. etc. Tight focusing of laser light using a chromium Fresnel zone plate // Optics Express 2017. — Vol. 25. Issue 17. — P. 19662-19671
  • 5 Kotlyar V.V., Nalimov A.G., Stafeev S.S. etc. Thin high numerical aperture metalens // Optics Express 2017. — Vol. 25. Issue 7. — P. 8158-8167
  • 6 Stafeev S.S., Nalimov A.G., O'Faolain L. etc. Azimuthal polarizer with phase shift for subwavelength focusing of laser light // Proceedings of SPIE - The International Society for Optical Engineering. — 2017. — Vol. 10176.
  • 7 Kozlova E.S., Kotlyar V.V., Nalimov A.G. etc. Subwavelength focusing of laser light using zone plates with silver and chromium rings // Progress in Electromagnetics Research Symposium. — 2017. — P. 107-111
  • 8 Stafeev S.S., Nalimov A.G., Kotlyar M. V. etc. Transmitting subwavelength azimuthal micropolarizer // Proceedings of SPIE - The International Society for Optical Engineering. — 2017. — Vol. 10337.
  • 9 Nalimov A.G., Kotlyar V.V. Subwavelength focus of light by a planar microlens // Journal of Modern Optics 2017. — Vol. 64. Issue 5. — P. 478-483
  • 10 Kotlyar V.V., Nalimov A.G. A vector optical vortex generated and focused using a metalens // Computer Optics 2017. — Vol. 41. Issue 5. — P. 645-654
  • 11 Nalimov A.G., Stafeev S.S., Kozlova E.S. etc. Subwavelength focusing of laser light using a chromium zone plate // Computer Optics 2017. — Vol. 41. Issue 3. — P. 356-362
  • 12 Kotlyar V.V., Nalimov A.G., Stafeev S.S. etc. A metalens for subwavelength focus of light // Progress in Electromagnetics Research Symposium. — 2017. — P. 112-117
  • 13 Kozlova E.S., Kotlyar V.V., Nalimov A.G. etc. Dependence of the focal spot parameters on the relief height of the amplitude zone plate // International Conference on Transparent Optical Networks. — 2017. —
  • 14 Nalimov A.G., Kotlyar V.V., Kozlova E.S. Metalens investigation with different sectors number // Progress in Electromagnetics Research Symposium. — 2017. — Vol. 2017-November. — P. 2509-2512
  • 15 Stafeev S.S., Nalimov A.G., Kotlyar M. V. etc. Tight focusing of azimuthally polarized optical vortex produced by subwavelength grating // Procedia Engineering. — 2017. — Vol. 201. — P. 83-89
  • 16 Kotlyar V.V., Nalimov A.G., Stafeev S.S. etc. Thin metalens with high numerical aperture // Computer Optics 2017. — Vol. 41. Issue 1. — P. 5-12
  • 17 Stafeev S.S., Nalimov A.G., O'Faolain L. etc. Tight focusing of laser light propagated through subwavelength micropolarizer using Fresnel zone plate // Proceedings of SPIE - The International Society for Optical Engineering. — 2017. — Vol. 10342.
  • 18 Stafeev S.S., Nalimov A.G., Kotlyar M. V. etc. Focusing zone plate based on subwavelength grating // International Conference on Transparent Optical Networks. — 2017. —
  • 19 Nalimov A.G. Modeling a high numerical aperture micrometalens simulation with and a varying number of sectors // Computer Optics 2017. — Vol. 41. Issue 5. — P. 655-660
2016
  • 1 Kotlyar V.V., Nalimov A.G., Kotlyar M. V. Modeling a polarization microlens to focus linearly polarized light into a near-circular subwavelength focal spot // Computer Optics 2016. — Vol. 40. Issue 4. — P. 451-457
  • 2 Stafeev S.S., Kotlyar M. V. , O’Faolain L. etc. A four-zone transmission azimuthal micropolarizer with phase shift // Computer Optics 2016. — Vol. 40. Issue 1. — P. 12-18
  • 3 Stafeev S.S., Nalimov A.G., Kotlyar M. V. etc. Subwavelength focusing of laser light of a mixture of linearly and azimuthally polarized beams // Computer Optics 2016. — Vol. 40. Issue 4. — P. 458-466
  • 4 Stafeev S.S., Kotlyar M. V. , O'Faolain L. etc. Subwavelength gratings for generating azimuthally polarized beams // CEUR Workshop Proceedings. — 2016. — Vol. 1638. — P. 125-131
  • 5 Kotlyar V.V., Nalimov A.G. Tightly focused laser light with azimuthal polarization and singular phase // Computer Optics 2016. — Vol. 40. Issue 5. — P. 642-648
  • 6 Nalimov A.G., Kotlyar V.V. Sharp focusing of light using a planar gradient microlens // Computer Optics 2016. — Vol. 40. Issue 2. — P. 135-140
  • 7 Stafeev S.S., Nalimov A.G., O'Faolain L. etc. The tight focusing of laser radiation using 4-sector polarization converter // Journal of Physics: Conference Series. — 2016. — Vol. 735. Issue 1.
  • 8 Stafeev S.S., Nalimov A.G., Kotlyar M. V. etc. Microlens-aided focusing of linearly and azimuthally polarized laser light // Optics Express 2016. — Vol. 24. Issue 26. — P. 29800-29813
  • 9 Kotlyar V.V., Stafeev S.S., Kotlyar M. V. etc. Subwavelength micropolarizer in a gold film for visible light // Applied Optics 2016. — Vol. 55. Issue 19. — P. 5025-5032
  • 10 Nalimov A.G., Kotlyar V.V. Simulation of image formation using compound X-ray zone plates // OPTIK 2016. — Vol. 127. Issue 18. — P. 7235-7241
2015
  • 1 Kozlova E.S., Kotlyar V.V., Nalimov A.G. Comparative modeling of amplitude and phase zone plates // Computer Optics 2015. — Vol. 39. Issue 5. — P. 687-693
  • 2 Nalimov A.G., Kotlyar V.V. Use of combined zone plates as imaging optics for hard X-rays // Computer Optics 2015. — Vol. 39. Issue 1. — P. 52-57
  • 3 Stafeev S.S., O'Faolain L., Kotlyar V.V. etc. Tight focus of light using micropolarizer and microlens // Applied Optics 2015. — Vol. 54. Issue 14. — P. 4388-4394
  • 4 Stafeev S.S., Nalimov A.G., Kotlyar M. V. etc. A four-zone reflective azimuthal micropolarizer // Computer Optics 2015. — Vol. 39. Issue 5. — P. 709-715
2014
  • 1 Nalimov A.G., Stafeev S.S., O'Faolain L. etc. Four-zone reflective polarization conversion plate // Progress in Biomedical Optics and Imaging - Proceedings of SPIE. — 2014. — Vol. 9448.
  • 2 Nalimov A.G., O'Faolain L., Stafeev S.S. etc. Reflected four-zones subwavelength microoptics element for polarization conversion from linear to radial // Computer Optics 2014. — Vol. 38. Issue 2. — P. 229-236
2013
2012
  • 1 Nalimov A.G., Kotlyar V.V. Planar binar lense parameters optimisation for visible light // Computer Optics 2012. — Vol. 36. Issue 3. — P. 327-332
  • 2 Kotlyar V.V., Kovalev A.A., Nalimov A.G. etc. High resolution through graded-index microoptics // Advances in Optical Technologies 2012. —
  • 3 Kotlyar V.V., Stafeev S.S., Kovalev A.A. etc. Focusing of linearly polarized light using binary axicon with subwavelength period // Computer Optics 2012. — Vol. 36. Issue 2. — P. 183-189
  • 4 KOTLYaR V.V., STAFEEV S.S., NALIMOV A.G. etc. Моделирование фокусировки линейно-поляризованного света с помощью субволнового бинарного аксикона // Computer Optics 2012. — № 36(2). — P. 183-189
  • 5 Kotlyar V.V., Kovalev A.A., Nalimov A.G. Hypergeometric laser beams in a parabolic waveguide // Computer Optics 2012. — Vol. 36. Issue 3. — P. 308-315
  • 6 KOTLYaR V.V., NALIMOV A.G. Оптимизация параметров планарной бинарной линзы для видимого диапазона излучения // Computer Optics 2012. — № 36(3). — P. 327-332
  • 7 KOTLYaR V.V., KOVALEV A.A., NALIMOV A.G. Гипергеометрические лазерные пучки в параболическом волноводе // Computer Optics 2012. — № 36(3). — P. 308-315
  • 8 Kovalev A.A., Nalimov A.G., Kotlyar V.V. Subwavelength imaging with magnification by mikaelian lenses // Computer Optics 2012. — Vol. 36. Issue 4. — P. 497-505
  • 9 Kotlyar V.V., Nalimov A.G., Shanina M.I. etc. Focusing properties of a zone plate investigation for a hard x-ray // Computer Optics 2012. — Vol. 36. Issue 1. — P. 65-71
2011
  • 1 Kotlyar V.V., Nalimov A.G., Stafeev S.S. Diameter of a focal spot for non-Gaussian beams with a finite energy // Computer Optics 2011. — Vol. 35. Issue 4. — P. 452-459
  • 2 Nalimov A.G., Kotlyar V.V., Soifer V.A. Modeling of an image forming by a zone plate in X-ray // Computer Optics 2011. — Vol. 35. Issue 3. — P. 290-296
  • 3 Nalimov A.G., Kotlyar V.V., Kovalev A.A. etc. Three-dimensional simulation of a device to input light in a planar waveguide // Conference Proceedings - 11th International Conference on Laser and Fiber-Optical Networks Modeling, LFNM 2011. — 2011. —
  • 4 Kotlyar V.V., Kovalev A.A., Triandafilov Ya.R. etc. Simulation of propagation of modes in planar gradient-index hyperbolic secant waveguide // Conference Proceedings - 11th International Conference on Laser and Fiber-Optical Networks Modeling, LFNM 2011. — 2011. —
  • 5 KOTLYaR V.V., NALIMOV A.G., STAFEEV S.S. Диаметр фокусного пятна для негауссовых пучков с конечной энергией // Computer Optics 2011. — № т. 35, № 4.. — P. 452-459
  • 6 Kotlyar V.V., Nalimov A.G., Shanina M.I. etc. Zone plate on a film for hard X-ray radiation // Computer Optics 2011. — Vol. 35. Issue 1. — P. 36-41
  • 7 KOTLYaR V.V., NALIMOV A.G., Shanina M.I. etc. Зонная пластинка на мембране для жёсткого рентгеновского излучения // Computer Optics 2011. — № Том 35, № 1. — P. 36-42
2010
  • 1 STRILEC T.S., KOTLYaR V.V., NALIMOV A.G. Моделирование волноводных режимов в многослойных структурах // Computer Optics 2010. — № т. 34, № 4.. — P. 487-494
  • 2 KOTLYaR V.V., KOVALEV A.A., NALIMOV A.G. etc. Механизм сверхразрешения в планарной гиперболической секансной линзе // Computer Optics 2010. — № т. 34, № 4.. — P. 428-435
  • 3 KOTLYaR V.V., KOVALEV A.A., NALIMOV A.G. etc. Субволновая локализация света в волноводных структурах // Computer Optics 2010. — № том 34,№2. — P. 169-185
  • 4 KOVALEV A.A., KOVALEV A.A., KOTLYaR V.V. etc. Моды планарного градиентного гиперболического секансного волновода // Computer Optics 2010. — № т.34,№ 2. — P. 146-154
  • 5 KOVALEV A.A., KOVALEV A.A., KOTLYaR V.V. etc. Моды планарного градиентного гиперболического секансного волновода // Computer Optics 2010. — № т.34,№ 2. — P. 146-154
  • 6 KOTLYaR V.V., NALIMOV A.G., STAFEEV S.S. etc. Диаметр светового пятна в ближней зоне бинарного дифракционного микроаксикона // Computer Optics 2010. — № Т 34 №1. — P. 24-34
  • 7 Strilets T.S., Kotlyar V.V., Nalimov A.G. Simulation of waveguide modes in multilayer structures // Computer Optics 2010. — Vol. 34. Issue 4. — P. 487-493
  • 8 Kotlyar V.V., Kovalev A.A., Triandafilov Y.R. etc. Modes of planar gradient-index hyperbolic secant waveguide // Computer Optics 2010. — Vol. 34. Issue 2. — P. 146-155
  • 9 Kotlyar V.V., Stafeev S.S., Skidanov R.V. etc. Light spot diameter in the near zone of binary diffractive microaxicon // Computer Optics 2010. — Vol. 34. Issue 1. — P. 24-34
  • 10 Kotlyar V.V., Kovalev A.A., Shuyupova Y.O. etc. Subwavelength localization of light in waveguide structures // Computer Optics 2010. — Vol. 34. Issue 2. — P. 169-186
  • 11 Kotlyar V.V., Kovalev A.A., Nalimov A.G. etc. Mechanism of superresolution in a planar hyperbolicsecant lens // Computer Optics 2010. — Vol. 34. Issue 4. — P. 428-435
2009
  • 1 Nalimov A.G., Kovalev A.A., Kotlyar V.V. etc. Three-dimensional simulation of a nanophotonics device with use of fullwave software // Optical Memory and Neural Networks (Information Optics) 2009. — Vol. 18. Issue 2. — P. 85-92
  • 2 Kotlyar V.V., Kovalev A.A., Nalimov A.G. Gradient-index elements of microoptics for superresolution // Computer Optics 2009. — Vol. 33. Issue 4. — P. 369-378
  • 3 Nalimov A.G., Kovalev A.A., Kotlyar V.V. etc. Simulation of 3D nanophotonics device for coupling light into planar waveguide // Computer Optics 2009. — Vol. 33. Issue 1. — P. 4-9
2008
  • 1 Kotlyar V.V., Nalimov A.G. Calculating of a periodic structures for the uniform light outut from a planar waveguide // Computer Optics 2008. — Vol. 32. Issue 3. — P. 249-252
2006
  • 1 Kotlyar V.V., Nalimov A.G. Calculating the pressure force of the non-paraxial cylindrical Gaussian beam exerted upon a homogeneous circular-shaped cylinder // Journal of Modern Optics 2006. — Vol. 53. Issue 13. — P. 1829-1844
  • 2 Kotlyar V.V., Nalimov A.G. Analytical expression for radiation forces on a dielectric cylinder illuminated by a cylindrical Gaussian beam // Optics Express 2006. — Vol. 14. Issue 13. — P. 505-510
  • 3 Kotlyar V.V., Nalimov A.G. Analytical expression for radiation forces on a dielectric cylinder illuminated by a cylindrical gaussian beam // Optics Express 2006. — Vol. 14. Issue 13. — P. 6316-6321
2005
  • 1 Kotlyar V.V., Nalimov A.G., Skidanov R.V. Calculation of Umov-Poynting vector and the electromagnetic wave pressure force on a homogeneous dielectric cylinder // Proceedings of SPIE - The International Society for Optical Engineering. — 2005. — Vol. 5773. — P. 106-118
  • 2 Kotlyar V.V., Skidanov R.V., Nalimov A.G. Method for rapidly calculating the diffraction of laser radiation at microscopic objects // Journal of Optical Technology 2005. — Vol. 72. Issue 5. — P. 400-405
2004
  • 1 Korsakova S.S., Nalimov A.G., Khonina S.N. A method of calculating the diffraction and refraction of radiation at a dielectric cylinder // Journal of Optical Technology . — 2004. — Vol. 71. Issue 7. — P. 472-477
2003
  • 1 Khonina S.N., Kotlyar V.V., Skidanov R.V. etc. Optodigital system for identifying fingerprints in real time // Journal of Optical Technology 2003. — Vol. 70. Issue 8. — P. 586-589

Монографии

2024
2022
2021
2019
2018
2017
2014
2011

ВАК

2023
2022
2021
2018
  • 1 Налимов А. Г. , Котляр В. В. , Kononenko T.V. и др. An X-ray diamond focuser based on an array of three-component elements // Компьютерная оптика. — 2018. — Т. 42. Вып. 6. — С. 933-940
2016
  • 1 Налимов А.Г., Абульханов С.Р., Горяинов Д.С. Инновационные приложения фокусаторов акустических волн // Известия Самарского научного центра РАН. — 2016. — Т. 18. № 4. — С. 153-160
2015
2014
  • 1 Налимов А. Г. , O'Faolain L., Стафеев С. С. и др. Reflected four-zones subwavelength microoptics element for polarization conversion from linear to radial // Компьютерная оптика. — 2014. — Т. 38. Вып. 2. — С. 229-236
2012
2011
  • 1 КОТЛЯР В.В., НАЛИМОВ А.Г., СТАФЕЕВ С.С. Диаметр фокусного пятна для негауссовых пучков с конечной энергией // Компьютерная оптика.. — 2011. — № т. 35, № 4.. — С. 452-459
  • 2 КОТЛЯР В.В., НАЛИМОВ А.Г., Шанина М.И. и др. Зонная пластинка на мембране для жёсткого рентгеновского излучения // Компьютерная оптика. — 2011. — № Том 35, № 1. — С. 36-42
2010
  • 1 НАЛИМОВ А.Г., ХОНИНА С. Н. Сравнение методов расчета распространения рентгеновского излучения через ДОЭ в параксиальной области // Известия СНЦ РАН. — 2010. — № т.12, № 4.. — С. 26-31
  • 2 СТРИЛЕЦ Т.С., КОТЛЯР В.В., НАЛИМОВ А.Г. Моделирование волноводных режимов в многослойных структурах // Компьютерная оптика. — 2010. — № т. 34, № 4.. — С. 487-494
  • 3 КОТЛЯР В.В., КОВАЛЕВ А.А., НАЛИМОВ А.Г. и др. Механизм сверхразрешения в планарной гиперболической секансной линзе // Компьютерная оптика. — 2010. — № т. 34, № 4.. — С. 428-435
  • 4 ХОНИНА С. Н., НАЛИМОВ А.Г. Сравнение методов расчета распространения ренгеновского излучения через ДОЭ в параксиальной области // Известия СНЦ РАН. — 2010. — № т.12,№4. — С. 26-31
  • 5 КОТЛЯР В.В., НАЛИМОВ А.Г. Моделирование фокусировки света градиентными микролинзами // Известия СНЦ РАН, 2010. – Т. 12. – N.4. – С. 32-37.. — 2010. — № т.12,№4.. — С. 32-37
  • 6 КОТЛЯР В.В., КОВАЛЕВ А.А., НАЛИМОВ А.Г. и др. Субволновая локализация света в волноводных структурах // Компьютнрная оптика. — 2010. — № том 34,№2. — С. 169-185
  • 7 КОВАЛЕВ А.А., КОВАЛЕВ А.А., КОТЛЯР В.В. и др. Моды планарного градиентного гиперболического секансного волновода // Компьютерная оптика. — 2010. — № т.34,№ 2. — С. 146-154
  • 8 КОВАЛЕВ А.А., КОВАЛЕВ А.А., КОТЛЯР В.В. и др. Моды планарного градиентного гиперболического секансного волновода // Компьютерная оптика. — 2010. — № т.34,№ 2. — С. 146-154
  • 9 КОТЛЯР В.В., НАЛИМОВ А.Г., СТАФЕЕВ С.С. и др. Диаметр светового пятна в ближней зоне бинарного дифракционного микроаксикона // Компьютерная Оптика. — 2010. — № Т 34 №1. — С. 24-34

Другие

2023
  • 1 Козлова Е.С., Налимов А.Г., Котляр В.В. и др. Измерение характеристик тонких пленок оптическим датчиком на основе спиральной зонной пластины // 20-я Международная конференция по голографии и прикладным оптическим технологиям HOLOEXPO 2023. — 2023. — С. 247-249
2020
  • 1 Стафеев С.С., Козлова Е.С., Котляр В.В. и др. Острая фокусировка цилиндрического векторного пучка второго порядка линзой Микаэляна // VI Международная конференция и молодежная школа «Информационные технологии и нанотехнологии» (ИТНТ-2020). — 2020. — Т. 1. — С. 321-325
2019
  • 1 Kotlyar V.V., Nalimov Anton Gennadevich, Stafeev S.S. Comparison of the negative energy flow in linearly and circularly polarized beams focused with metalens // The 10th International Conference on Metamaterials, Photonic Crystals and Plasmonics META-2019. — 2019. — P. 1687-1688
  • 2 Налимов А.Г., Стафеев С.С., L.O'Faolain и др. Spiral metalens for tight focusing of azimuthally polarized optical vortex // The 10th International Conference on Metamaterials, Photonic Crystals and Plasmonics META-2019. — 2019. — С. 1689-1690
2016
  • 1 Налимов А.Г., Котляр В.В., Стафеев С.С. и др. Субволновые решетки для создания поляризационно-неоднородных пучков // Информационные технологии и нанотехнологии ИТНТ-2016. — 2016. — С. 62-67
2015
  • 1 Стафеев С.С., Налимов А.Г., О'Фаолейн Л. и др. Острая фокусировка лазерного излучения с помощью 4-секторного преобразователя поляризации // IX Международная конференция молодых ученых и специалистов «Оптика-2015». — 2015. — С. 590-592
  • 2 Налимов А.Г., Котляр В.В. Разработка многопорядковой зонной пластинки для формирования изображения в рентгеновском излучении // Информационные технологии и нанотехнологии (ИТНТ-2015). — 2015. — С. 136-138
2014
  • 1 НАЛИМОВ А.Г., КОВАЛЕВ А.А. Увеличение изображения с помощью планарных линз Микаэляна // Всероссийская научная конференция с международным участием "Проблемы критических ситуаций в точной механике и управлении". — 2014. — С. 368-371
2010
  • 1 НАЛИМОВ А.Г., КОТЛЯР В.В., СКИДАНОВ Р.В. и др. Фокусировка света в ближнем поле с помощью бинарного аксикона с периодом 800 нм // 7-ая Международная научно-практическая конференция ГОЛОЭКСПО-2010. — 2010. — С. 376-380
  • 2 КОТЛЯР В.В., КОВАЛЕВ А.А., НАЛИМОВ А.Г. Изображение с высоким разрешением с помощью градиентной секонсной лонзы // 7-ая Международная научно-практическая конференция ГОЛОЭКСПО-2010. — 2010. — С. 402-408
  • 3 KOVALEV A.A., KOTLYaR V.V., NALIMOV A.G. Secant gradient-index microlens for superresolution // Int.Conf.on Opt/ Techn. and Nano-Tools for Mater. and Lefe sc.. — 2010. — P. 36