2017 Doctoral degree in physical and mathematical science
2011 Candidate degree in physical and mathematical science
Education
2022 Повышение квалификации: Самарский университет, Инклюзивное профессиональное образование
2022 Повышение квалификации: Самарский университет, Навыки оказания первой помощи
2021 Повышение квалификации: Самарский университет, Электронная информационно-образовательная среда университета
2018 Повышение квалификации: Самарский университет, Электронная информационно-образовательная среда университета
2018 Повышение квалификации: Самарский университет, "Инклюзивное профессиональное образование"
2014 - 2015 Повышение квалификации: СГАУ
2014 Повышение квалификации: СГАУ
2012 Повышение квалификации: Пекинский политехнический институт, г.Пекин, Китай
2012 Повышение квалификации: Шанхайский университет науки и технологий, г.Шанхай, Китай
2010 Повышение квалификации: МГТУ им.Н.Э.Баумана
2003 - 2009 Высшее: Самарский государственный аэрокосмический университет имени академика С.П.Королева, факультет Информатика
2025
1Motz G.A., Soshnikov D.V., Doskolovich L.L. etc. Design of cascaded diffractive optical elements generating different intensity distributions at several operating wavelengths // OPTIK 2025. — Vol. 320.
2Doskolovich L.L., Kashapov A.I., Bezus E.A. etc. Vectorial spatial differentiation of optical beams with metal–dielectric multilayers enabled by spin Hall effect of light and resonant reflection zero // Optics and laser technology 2025. — Vol. 181.
6Khokhlov N.E., Prokopov A.R., Shaposhnikov A.N. etc. Photonic crystals with plasmonic patterns: Novel type of the heterostructures for enhanced magneto-optical activity // Journal of Physics D: Applied Physics 2015. — Vol. 48. Issue 9.
7Golovastikov N.V., Bykov D.A., Doskolovich L.L. etc. Spatiotemporal optical pulse transformation by a resonant diffraction grating // Journal of Experimental and Theoretical Physics 2015. — Vol. 121. Issue 5. — P. 785-792
8Golovastikov N.V., Bykov D.A., Doskolovich L.L. etc. Spatial optical integrator based on phase-shifted Bragg gratings // Optics Communications 2015. — Vol. 338. — P. 457-460
9Bykov D.A., Doskolovich L.L.Spatiotemporal coupled-mode theory of guided-mode resonant gratings // Optics Express 2015. — Vol. 23. Issue 15.
10Bykov D.A., Doskolovich L.L.On the use of the fourier modal method for calculation of localized eigenmodes of integrated optical resonators // Computer Optics 2015. — Vol. 39. Issue 5. — P. 663-673
2008
1Bezus E.A., Bykov D.A., Doskolovich L.L. etc. Diffraction gratings for generating varying-period interference patterns of surface plasmons // Journal of Optics A: Pure and Applied Optics 2008. — Vol. 10. Issue 9.
2009
1Belotelov V.I., Bykov D.A., Doskolovich L.L. etc. Giant magneto-optical orientational effect in plasmonic heterostructures // Optics Letters 2009. — Vol. 34. Issue 4. — P. 398-400
2Greisukh G.I., Bezus E.A., Bykov D.A. etc. Suppression of the spectral selectivity of two-layer phase-relief diffraction structures // Optics and Spectroscopy (English translation of Optika i Spektroskopiya) 2009. — Vol. 106. Issue 4. — P. 621-626
3Greǐsukh G.I., Ezhov E.G., Stepanov S.A. etc. Diffraction elements in the optical systems of modern optoelectronics // Journal of Optical Technology 2009. — Vol. 76. Issue 7. — P. 395-398
4Belotelov V.I., Bykov D.A., Doskolovich L.L. etc. Optical properties of perforated metal-dielectric heterostructures magnetized in the plane // Physics of the Solid State 2009. — Vol. 51. Issue 8. — P. 1656-1662
5Belotelov V.I., Bykov D.A., Doskolovich L.L. etc. Extraordinary transmission and giant magnetooptical transverse Kerr effect in plasmonic nanostructured films // Journal of the Optical Society of America B: Optical Physics 2009. — Vol. 26. Issue 8. — P. 1594-1598
6Bykov D.A., Doskolovich L.L., Soifer V.A.Investigation of magneto-optical properties of dielectric gratings based on the analysys of parity and dispersion of eigenmodes // Computer Optics 2009. — Vol. 33. Issue 4. — P. 384-392
2010
1Kalish A.N., Belotelov V.I., Bykov D.A. etc. Optical properties of two-layer one-dimensional magneto-plasmonic crystals // Journal of Optical Technology 2010. — Vol. 77. Issue 12. — P. 784-785
2Bykov D.A., Doskolovich L.L., Soifer V.A. etc. Extraordinary magneto-optical effect of a change in the phase of diffraction orders in dielectric diffraction gratings // Journal of Experimental and Theoretical Physics 2010. — Vol. 111. Issue 6. — P. 967-974
3Belotelov V.I., Bykov D.A., Doskolovich L.L. etc. Giant transversal Kerr effect in magneto-plasmonic heterostructures: The scattering-matrix method // Journal of Experimental and Theoretical Physics 2010. — Vol. 110. Issue 5. — P. 816-824
4Belotelov V.I., Bykov D.A., Doskolovich L.L. etc. On surface plasmon polariton wavepacket dynamics in metal-dielectric heterostructures // Journal of Physics: Condensed matter 2010. — Vol. 22. Issue 39.
5Bykov D.A., Doskolovich L.L.Magneto-optical resonances in periodic dielectric structures magnetized in plane // Journal of Modern Optics 2010. — Vol. 57. Issue 17. — P. 1611-1618
6Bykov D.A., Doskolovich L.L.Extraordinary magneto-optical effect of transmitted wave phase change in periodic diffraction structures // Technical Physics Letters 2010. — Vol. 36. Issue 7. — P. 595-598
2011
1ANDREEV S.N., BELOTELOV V.I., TARAKANOV V.P. etc. Dynamics of the surface plasmon polaritons in plasmonic crystals // SPP5, the 5-th International Conference on Surface Plasmon Photonics, Book of abstracts.. — 2011. — P. 116
2BYKOV D.A., DOSKOLOVICh L.L., SOYFER V.A.Temporal Differentiation using Reson-ance Gratings // APCOM — Asia-Pacific Conference on Fundamental Problems of Opto- and Microelectronics. 26MNO2.. — 2011. — P. 26
3 Vanwolleghem, M., Halagacka, L., Dagens, B. etc. Extraordinary nonreciprocity of the Bloch modes in a waveguide coupled magnetoplasmonic nanograting. // SPP5, the 5-th International Conference on Surface Plasmon Photonics, Book of abstracts.. — 2011. — P. 16
4Bykov D.A., Doskolovich L.L., Soifer V.A.Temporal differentiation of optical signals using resonant gratings // Optics Letters 2011. — Vol. 36. Issue 17. — P. 3509-3511
5BYKOV D.A., DOSKOLOVICh L.L., SOYFER V.A.Resonance waveguide grating for optical pulse temporal differentiation / // Photonics Prague 2011: The 7th Inter-national Conference on Photonics, Devices and Systems,Book of abstracts.. — 2011. — P. 48
6Andreev S.N., Belotelov V.I., Bykov D.A. etc. Dynamics of surface plasmon polaritons in plasmonic crystals // Journal of the Optical Society of America B: Optical Physics 2011. — Vol. 28. Issue 5. — P. 1111-1117
2012
1Bykov D.A., Doskolovich L.L., Soifer V.A.Integration of optical pulses by resonant diffraction gratings // JETP Letters 2012. — Vol. 95. Issue 1. — P. 6-9
2Golovastikov N.V., Bykov D.A., Doskolovich L.L. etc. Temporal differentiation of optical signals in reflection using resonant gratings // Computer Optics 2012. — Vol. 36. Issue 2. — P. 151-157
3Bykov D.A., Doskolovich L.L., Soifer V.A.Single-resonance diffraction gratings for time-domain pulse transformations: Integration of optical signals // Journal of the Optical Society of America A: Optics and Image Science, and Vision 2012. — Vol. 29. Issue 8. — P. 1734-1740
4Bykov D.A., Doskolovich L.L., Soifer V.A.On the ability of resonant diffraction gratings to differentiate a pulsed optical signal // Journal of Experimental and Theoretical Physics 2012. — Vol. 114. Issue 5. — P. 724-730
5GOLOVASTIKOV N.V., BYKOV D.A., DOSKOLOVICh L.L. etc. Резонансные дифракционные решётки для дифференцирования оптических импульсов в отражении // Computer Optics 2012. — № 36(2). — P. 151-157
2013
1BYKOV D.A., DOSKOLOVICh L.L.Localized modes and resonances in inte-grated magneto-plasmonics // The 6-th International Conference of Surface Plasmon Photonics Abstracts. — 2013. —
2Bykov D.A., Doskolovich L.L.Numerical methods for calculating poles of the scattering matrix with applications in grating theory // Journal of Lightwave Technology 2013. — Vol. 31. Issue 5. — P. 793-801
3Golovastikov N.V., Bykov D.A., Doskolovich L.L. etc. Resonant diffraction gratings for differentiation of optical signals in reflection and transmission // Computer Optics 2013. — Vol. 37. Issue 2. — P. 138-145
4Bykov D.A., Doskolovich L.L., Golovastikov N.V. etc. Time-domain differentiation of optical pulses in reflection and in transmission using the same resonant grating // Journal of Optics 2013. — Vol. 15. Issue 10.
1Bykov D. A., Doskolovich L. L.Controlling surface plasmon polaritons using magneto-optical cavites // PIERS Abstracts. — 2014. — P. 114-114
2Doskolovich L.L., Bykov D.A., Bezus E.A. etc. Spatial differentiation of optical beams using phase-shifted Bragg grating // Optics Letters 2014. — Vol. 39. Issue 5. — P. 1278-1281
3Bykov D.A., Doskolovich L.L.On the diffraction of an optical beam by a phase shifted bragg grating // Computer Optics 2014. — Vol. 38. Issue 4. — P. 590-597
4Bykov D.A., Doskolovich L.L.Controlling the surface plasmon excitation efficiency using dielectric magneto-optical cavity // Journal of Optics 2014. — Vol. 16. Issue 8.
5Belotelov V.I., Kreilkamp L.E., Kalish A.N. etc. Magnetophotonic intensity effects in hybrid metal-dielectric structures // Physical Review B - Condensed Matter and Materials Physics 2014. — Vol. 89. Issue 4.
6Golovastikov N.V., Bykov D.A., Doskolovich L.L.Resonant diffraction gratings for spatial differentiation of optical beams // Quantum Electronics 2014. — Vol. 44. Issue 10. — P. 984-988
7Bezus E.A., Doskolovich L.L., Bykov D.A. etc. Phase modulation of Bloch surface waves with the use of a diffraction microrelief at the boundary of a one-dimensional photonic crystal // JETP Letters 2014. — Vol. 99. Issue 2. — P. 63-66
8Doskolovich L.L., Bezus E.A., Bykov D.A.On the compensation of the diffraction orders overlap effect in the offner spectrometer // Computer Optics 2014. — Vol. 38. Issue 4. — P. 777-781
9Bykov D.A., Doskolovich L.L., Bezus E.A. etc. Optical computation of the Laplace operator using phase-shifted Bragg grating // Optics Express 2014. — Vol. 22. Issue 21. — P. 25084-25092
10Golovastikov N.V., Bykov D.A., Doskolovich L.L.Spatial integration of optical beams using phase-shifted Bragg grating // Computer Optics 2014. — Vol. 38. Issue 3. — P. 372-376
2016
1Doskolovich L.L., Bezus E.A., Moiseev M. A. etc. Analytical source-target mapping method for the design of freeform mirrors generating prescribed 2D intensity distributions // Optics Express 2016. — Vol. 24. Issue 10. — P. 10962-10971
2Emelyanov S.V., Bykov D.A., Golovastikov N.V. etc. Differentiating space–time optical signals using resonant nanophotonics structures // Doklady Physics 2016. — Vol. 61. Issue 3. — P. 108-111
3Golovastikov N.V., Bykov D.A., Doskolovich L.L. etc. Analytical description of 3D optical pulse diffraction by a phase-shifted Bragg grating // Optics Express 2016. — Vol. 24. Issue 17. — P. 18828-18842
4Doskolovich L.L., Bezus E.A., Bykov D.A. etc. Spatial differentiation of Bloch surface wave beams using an on-chip phase-shifted Bragg grating // Journal of Optics 2016. — Vol. 18. Issue 11.
6Doskolovich L.L., Bezus E.A., Bykov D.A.On-chip Bragg gratings for Bloch surface waves // The 7th International Conference on Metamaterials, Photonic Crystals and Plasmonics (META’16). — 2016. — P. 836-837
7Doskolovich L.L., Bykov D.A., Bezus E.A.Optical implementation of differential operators with resonant nanophotonic structures // International Conference “Days on Diffraction 2016”. — 2016. — P. 155-156
2024
1Bykov D.A., Bezus E.A., Doskolovich L.L.On obtaining the coupled-mode theory using a model of coupled plane waves for symmetric resonant diffraction gratings // Computer Optics 2024. — Vol. 48. Issue 4. № 4. — P. 491-500
2Doskolovich L.L., Soshnikov D.V., Motz G.A. etc. Design of Cascaded DOEs for Focusing Different Wavelengths to Different Points // PHOTONICS 2024. — Vol. 11. Issue 9. № 9.
3Motz G.A., Doskolovich L.L., Soshnikov D.V. etc. Design of Diffractive Neural Networks for Solving Different Classification Problems at Different Wavelengths // PHOTONICS 2024. — Vol. 11. Issue 8. № 8.
4Bykov D.A., Bezus E.A., Doskolovich L.L.On simulating light diffraction by layered structures with multiple wedges // Journal of the Optical Society of America A: Optics and Image Science, and Vision 2024. — Vol. 41. Issue 9. № 9. — P. 1693-1701
5Bykov D.A., Bezus E.A., Doskolovich L.L.Spatiotemporal coupled-mode theory for Fabry-Pérot resonators and its application to linear variable filters // Physical Review A 2024. — Vol. 110. Issue 2. № 2.
6Bykov D.A., Bezus E.A., Mingazov A.A. etc. Algebraic approach to finding the number of parameters required to obtain a bound state in the continuum // Physical Review A 2024. — Vol. 109. Issue 5. № 5.
7Kashapov A.I., Bezus E.A., Bykov D.A. etc. Differentiation of Optical Signals Using an Integrated Metal–Dielectric–Metal Structure // Bulletin of the Russian Academy of Sciences: Physics 2024. — Vol. 88. Issue 1. № 1. — P. 1-5
8Kashapov A.I., Doskolovich L.L., Bezus E.A. etc. On-chip spatiotemporal optical vortex generation using an integrated metal–dielectric resonator // Optics and laser technology 2024. — Vol. 174.
2017
1Doskolovich L.L., Mingazov A.A., Bykov D.A. etc. Variational approach to calculation of light field eikonal function for illuminating a prescribed region // Optics Express 2017. — Vol. 25. Issue 22. — P. 26378-26392
2Bykov D.A., Bezus E.A., Doskolovich L.L.Use of aperiodic Fourier modal method for calculating complex-frequency eigenmodes of long-period photonic crystal slabs // Optics Express 2017. — Vol. 25. Issue 22. — P. 27298-27309
3Golovastikov N.V., Bykov D.A., Doskolovich L.L.Temporal differentiation and integration of 3D optical pulses using phase-shifted Bragg gratings // Computer Optics 2017. — Vol. 41. Issue 1. — P. 13-21
4Bykov D.A., Doskolovich L.L., Soifer V.A.Coupled-mode theory and Fano resonances in guided-mode resonant gratings: The conical diffraction mounting // Optics Express 2017. — Vol. 25. Issue 2. — P. 1151-1164
5Doskolovich L.L., Bezus E.A., Bykov D.A. etc. On-chip phase-shifted Bragg gratings and their application for spatiotemporal transformation of Bloch surface waves // Proceedings of SPIE - The International Society for Optical Engineering. — 2017. — Vol. 10227.
7Doskolovich L.L., Bezus E.A., Golovastikov N.V. etc. Planar two-groove optical differentiator in a slab waveguide // Optics Express 2017. — Vol. 25. Issue 19. — P. 22328-22340
2018
1Bezus E.A., Bykov D.A., Doskolovich L.L.Bound states in the continuum and high-Q resonances supported by a dielectric ridge on a slab waveguide // Photonics Research 2018. — Vol. 6. Issue 11. — P. 1084-1093
2Doskolovich L.L., Mingazov A.A., Bykov D.A. etc. Variational approach to eikonal function computation // Computer Optics 2018. — Vol. 42. Issue 4. — P. 557-567
3Bykov D.A., Doskolovich L.L., Morozov A.A. etc. First-order optical spatial differentiator based on a guided-mode resonant grating // Optics Express 2018. — Vol. 26. Issue 8. — P. 10997-11006
4Doskolovich L.L., Bezus E.A., Bykov D.A.High-Q resonances supported by a single dielectric ridge on the surface of a slab waveguide // Journal of Physics: Conference Series. — 2018. — Vol. 1092.
5Doskolovich L.L., Bykov D.A., Andreeva K. V. etc. Design of an axisymmetrical refractive optical element generating required illuminance distribution and wavefront // Journal of the Optical Society of America A: Optics and Image Science, and Vision 2018. — Vol. 35. Issue 11. — P. 1949-1953
6Bykov D.A., Doskolovich L.L., Mingazov A.A. etc. Linear assignment problem in the design of freeform refractive optical elements generating prescribed irradiance distributions // Optics Express 2018. — Vol. 26. Issue 21. — P. 27812-27825
7Doskolovich L.L., Andreeva K. V. , Bykov D.A.Design of an axisymmetric optical element generating a prescribed illuminance distribution and wavefront // Computer Optics 2018. — Vol. 42. Issue 5. — P. 772-778
8Bezus E.A., Doskolovich L.L., Bykov D.A. etc. Spatial integration and differentiation of optical beams in a slab waveguide by a dielectric ridge supporting high-Q resonances // Optics Express 2018. — Vol. 26. Issue 19. — P. 25156-25165
9Bykov D.A., Doskolovich L.L.Cross-polarization mode coupling and exceptional points in photonic crystal slabs // Physical Review A 2018. — Vol. 97. Issue 1.
10Bezus E.A., Bykov D.A., Doskolovich L.L.On the relation between the propagation constant of bloch surface waves and the thickness of the upper layer of a photonic crystal // Computer Optics 2018. — Vol. 42. Issue 1. — P. 22-27
11Doskolovich L.L., Bykov D.A., Andreev E.S. etc. Designing double freeform surfaces for collimated beam shaping with optimal mass transportation and linear assignment problems // Optics Express 2018. — Vol. 26. Issue 19. — P. 24602-24613
12Mingazov A.A., Bykov D.A., Doskolovich L.L. etc. Variational interpretation of the eikonal calculation problem from the condition of generating a prescribed irradiance distribution // Computer Optics 2018. — Vol. 42. Issue 4. — P. 568-573
13Oliker V., Doskolovich L.L., Bykov D.A.Beam shaping with a plano-freeform lens pair // Optics Express 2018. — Vol. 26. Issue 15. — P. 19406-19419
14Doskolovich L.L., Mingazov A.A., Bykov D.A. etc. Вариационный подход к расчёту функции эйконала // Computer Optics 2018. — Vol. 42. № 4. — P. 557-567
15Golovastikov N.V., Doskolovich L.L., Bezus E.A. etc. An Optical Differentiator Based on a Three-Layer Structure with a W-Shaped Refractive Index Profile // Journal of Experimental and Theoretical Physics 2018. — Vol. 127. Issue 2. — P. 202-209
16Golovastikov N.V., Bykov D.A., Bezus E.A. etc. A simple three-layer dielectric structure for spatiotemporal differentiation of optical signals // Proceedings of SPIE - The International Society for Optical Engineering. — 2018. — Vol. 10672.
17Bezus E.A., Doskolovich L.L., Bykov D.A.Integrated W-type structure for spectral and spatial filtering of optical radiation propagating in a slab waveguide // Journal of Physics: Conference Series. — 2018. — Vol. 1092.
18Doskolovich L.L., Bezus E.A., Bykov D.A.Two-groove narrowband transmission filter integrated into a slab waveguide // Photonics Research 2018. — Vol. 6. Issue 1. — P. 61-65
2019
1Doskolovich L.L., Bezus E.A., Bykov D.A. etc. Resonant properties of composite structures consisting of several resonant diffraction gratings // Optics Express 2019. — Vol. 27. Issue 18. — P. 25814-25828
2Doskolovich L.L., Bezus E.A., Bykov D.A. etc. Calculation of a diffractive lens having a fixed focal position at several prescribed wavelengths // Computer Optics 2019. — Vol. 43. Issue 6. — P. 946-955
3Doskolovich L.L., Bykov D.A., Mingazov A.A. etc. Optimal mass transportation and linear assignment problems in the design of freeform refractive optical elements generating far-field irradiance distributions // Optics Express 2019. — Vol. 27. Issue 9. — P. 13083-13097
4Qian L., Wang K., Bykov D.A. etc. Improving the sensitivity of guided-mode resonance sensors under oblique incidence condition // Optics Express 2019. — Vol. 27. Issue 21. — P. 30563-30575
5Doskolovich L.L., Mingazov A.A., Bykov D.A. etc. Formulation of the inverse problem of calculating the optical surface for an illuminating beam with a plane wavefront as the monge–kantorovich problem // Computer Optics 2019. — Vol. 43. Issue 5. — P. 705-713
6Mingazov A.A., Doskolovich L.L., Bykov D.A. etc. The two reflector design problem for forming a flat wavefront from a point source as an optimal mass transfer problem // Computer Optics 2019. — Vol. 43. Issue 6. — P. 968-975
7Doskolovich L.L., Bezus E.A., Bykov D.A.Integrated flat-top reflection filters operating near bound states in the continuum // Photonics Research 2019. — Vol. 7. Issue 11. — P. 1314-1322
8Doskolovich L.L., Golovastikov N.V., Bykov D.A. etc. Analytical design of flat-top transmission filters composed of several resonant structures // Optics Express 2019. — Vol. 27. Issue 19. — P. 26786-26798
9Bykov D.A., Doskolovich L.L., Mingazov A.A. etc. Optimal mass transportation problem in the design of freeform optical elements generating far-field irradiance distributions for plane incident beam // Applied Optics 2019. — Vol. 58. Issue 33. — P. 9131-9140
10Bykov D.A., Bezus E.A., Doskolovich L.L.Coupled-wave formalism for bound states in the continuum in guided-mode resonant gratings // Physical Review A 2019. — Vol. 99. Issue 6.
2020
1Bezus Evgeniy Anatolevich, Bykov D.A., Doskolovich L.L.Calculating complex-frequency eigenmodes of long-period photonic crystal slabs using aperiodic Fourier modal method // Workshop on Theoretical and Numerical Tools for Nanophotonics (TNTN 2020). — 2020. — P. 71
2Mingazov A., Doskolovich L., Bykov D.The two reflector design problem for forming flat wavefront from a point source // Proceedings of ITNT 2020 - 6th IEEE International Conference on Information Technology and Nanotechnology. — 2020. —
3Golovastikov N.V., Bykov D.A., Doskolovich L.L.Arbitrary-order optical differentiation in refection by sequence of first-order differentiators // Journal of Physics: Conference Series. — 2020. — Vol. 1461. Issue 1.
4Bykov D.A., Doskolovich L.L., Bezus E.A.Multiscale approach and linear assignment problem in designing mirrors generating far-field irradiance distributions // Optics Letters 2020. — Vol. 45. Issue 13. — P. 3549-3552
5Doskolovich L.L., Bykov D.A., Andreev E.S. etc. Design and fabrication of freeform mirrors generating prescribed far-field irradiance distributions // Applied Optics 2020. — Vol. 59. Issue 16. — P. 5006-5012
6Bykov D.A., Bezus E.A., Doskolovich L.L.Bound states in the continuum and strong phase resonances in integrated gires-tournois interferometer // NANOPHOTONICS 2020. — Vol. 9. Issue 1. — P. 83-92
7Bykov D., Bezus E., Qian L. etc. Optical Properties of Resonant Diffraction Gratings with a Slowly Varying Period // Proceedings of ITNT 2020 - 6th IEEE International Conference on Information Technology and Nanotechnology. — 2020. —
8Bezus E.A., Bykov D.A., Doskolovich L.L.Integrated Gires–Tournois interferometers based on evanescently coupled ridge resonators // Optics Letters 2020. — Vol. 45. Issue 18. — P. 5065-5068
9Andreev E.S., Byzov E.V., Bykov D.A. etc. Design and fabrication of a freeform mirror generating a uniform illuminance distribution in a rectangular region // Computer Optics 2020. — Vol. 44. Issue 4. — P. 540-546
10Doskolovich L.L., Skidanov R.V., Bezus E.A. etc. Design of diffractive lenses operating at several wavelengths // Optics Express 2020. — Vol. 28. Issue 8. — P. 11705-11720
11Bezus Evgeniy Anatolevich, Bykov D.A., Doskolovich L.L.Coupled-wave analysis of bound states in the continuum in integrated nanophotonic elements for semi-guided waves // Workshop on Theoretical and Numerical Tools for Nanophotonics (TNTN 2020). — 2020. — P. 14
12Golovastikov N., Bykov D., Doskolovich L.Bound states in the continuum in composite structures consisting of two dielectric diffraction gratings with Lorentzian line shape // AIP Conference Proceedings. — 2020. — Vol. 2300.
13Bezus E.A., Bykov D.A., Doskolovich L.L.Bound states in the continuum in abruptly terminated dielectric slab waveguides // Journal of Physics: Conference Series. — 2020. — Vol. 1461. Issue 1.
14Bezus E., Bykov D., Doskolovich L.Integrated Spectral Filters Consisting of Several Dielectric Ridges on the Surface of a Slab Waveguide // Proceedings of ITNT 2020 - 6th IEEE International Conference on Information Technology and Nanotechnology. — 2020. —
15Doskolovich L.L., Golovastikov N.V., Bykov D.A. etc. All-dielectric filters with a butterworth line-shape composed of several resonant structures // AIP Conference Proceedings. — 2020. — Vol. 2300.
16Mingazov A., Doskolovich L., Bykov D. etc. Optimal mass transportation problem in the design of freeform optical elements generating far-field irradiance distributions for plane incident beam // Proceedings of ITNT 2020 - 6th IEEE International Conference on Information Technology and Nanotechnology. — 2020. —
17Mingazov A.A., Bykov D.A., Bezus E.A. etc. On the use of the supporting quadric method in the problem of designing double freeform surfaces for collimated beam shaping // Optics Express 2020. — Vol. 28. Issue 15. — P. 22642-22657
2021
1Kashapov A.I., Doskolovich L.L., Bykov D.A. etc. Optical Differentiator Based on a Three-Layer Metal-Dielectric Structure // Proceedings of ITNT 2021 - 7th IEEE International Conference on Information Technology and Nanotechnology. — 2021. —
2Bezus E.A., Kadomina E.A., Bykov D.A. etc. High-Q two-groove resonator for all-dielectric Bloch surface wave platform // Journal of Physics: Conference Series. — 2021. — Vol. 2015. Issue 1.
3Doskolovich L.L., Bykov D.A., Mingazov A.A. etc. Method for calculating a refractive optical element forming given illuminance distribution and wavefront // Computer Optics 2021. — Vol. 45. Issue 6. — P. 818-827
5Doskolovich L.L., Bykov D.A., Greisukh G.I. etc. Designing stigmatic lenses with minimal Fresnel losses // Journal of the Optical Society of America A: Optics and Image Science, and Vision 2021. — Vol. 38. Issue 6. — P. 855-861
6Doskolovich L.L., Bykov D.A., Greisukh G.I. etc. Design of a stigmatic lens with minimal fresnel losses // Computer Optics 2021. — Vol. 45. Issue 3. — P. 350-355
7Kashapov A.I., Doskolovich L.L., Bykov D.A. etc. Optical differentiator based on a trilayer metal-dielectric structure // Computer Optics 2021. — Vol. 45. Issue 3. — P. 356-363
8Doskolovich L.L., Mingazov A.A., Byzov E.V. etc. Hybrid design of diffractive optical elements for optical beam shaping // Optics Express 2021. — Vol. 29. Issue 20. — P. 31875-31890
9Bezus E.A., Bykov D.A., Doskolovich L.L.Gires-Tournois Interferometers for Modes of Dielectric Slab Waveguides // Proceedings of ITNT 2021 - 7th IEEE International Conference on Information Technology and Nanotechnology. — 2021. —
11Bykov D.A., Doskolovich L.L., Byzov E.V. etc. Supporting quadric method for designing refractive optical elements generating prescribed irradiance distributions and wavefronts // Optics Express 2021. — Vol. 29. Issue 17. — P. 26304-26318
12Kashapov A.I., Doskolovich L.L., Bezus E.A. etc. Spatial differentiation of optical beams using a resonant metal-dielectric-metal structure // Journal of Optics 2021. — Vol. 23. Issue 2.
13Bykov D.A., Doskolovich L.L., Mingazov A.A. etc. Supporting quadric method for designing double-surface freeform optical elements generating prescribed irradiance distributions and wavefronts // Optics InfoBase Conference Papers. — 2021. —
14Doskolovich L.L., Bykov D.A., Bezus E.A. etc. Design of a stigmatic lens implementing a required ray mapping // Applied Optics 2021. — Vol. 60. Issue 29. — P. 9138-9145
15Bezus E.A., Bykov D.A., Doskolovich L.L.Integrated diffraction gratings on the Bloch surface wave platform supporting bound states in the continuum // NANOPHOTONICS 2021. — Vol. 10. Issue 17. — P. 4331-4340
16Golovastikov N., Bykov D., Doskolovich L.Exceptional points in composite structures consisting of two dielectric diffraction gratings with Lorentzian line shape // Journal of Physics: Conference Series. — 2021. — Vol. 2015. Issue 1.
2022
1Doskolovich L.L., Kashapov A.I., Bezus E.A. etc. Spatiotemporal optical differentiation and vortex generation with metal-dielectric-metal multilayers // Physical Review A 2022. — Vol. 106. Issue 3. № 3.
2Kashapov Artem Ilyasovich, Bezus E.A., Bykov D.A. etc. Широкополосные абсорберы света на основе многослойных структур металл-диэлектрик-металл // St. Petersburg State Polytechnical University Journal: Physics and Mathematics 2022. — Vol. 15. № S3.2 . — P. 184-189
3Bezus E.A., Bykov D.A., Doskolovich L.L. etc. Integrated Resonant Diffraction Gratings for Bloch Surface Waves // Optical Memory and Neural Networks (Information Optics) 2022. — Vol. 31. — P. 8-13
4Doskolovich L.L., Byzov E.V., Mingazov A.A. etc. Supporting Quadric Method for Designing Freeform Mirrors That Generate Prescribed Near-Field Irradiance Distributions // PHOTONICS 2022. — Vol. 9. Issue 2. № 2.
5Mingazov A.A., Doskolovich L.L., Bykov D.A. etc. Support quadric method in non-imaging optics problems that can be reformulated as a mass transfer problem // Computer Optics 2022. — Vol. 46. Issue 3. № 3. — P. 353-365
6Doskolovich L.L., Skidanov R.V., Blank V.A. etc. Design of Multi-Wavelength Diffractive Lenses Focusing Radiation of Different Wavelengths to Different Points // PHOTONICS 2022. — Vol. 9. Issue 10. № 10.
7Doskolovich L.L., Mingazov A.A., Byzov E.V. etc. Method for calculating the eikonal function and its application to design of diffractive optical elements for optical beam shaping // Computer Optics 2022. — Vol. 46. Issue 2. — P. 173-183
8Podlipnov V.V., Bykov D.A., Nesterenko D.V.Structural and optical properties of thin CdTe films in the visible and infrared regions // Computer Optics 2022. — Vol. 46. Issue 3. № 3. — P. 415-421
9Doskolovich L.L., Kashapov A.I., Bezus E.A. etc. Optical properties of cascaded metal-dielectric-metal structures and their application to the differentiation of optical signals // Photonics and Nanostructures - Fundamentals and Applications 2022. — Vol. 52.
10Bezus E.A., Bykov D.A., Doskolovich L.L.Total absorption and coherent perfect absorption in metal–dielectric–metal resonators integrated into a slab waveguide // Optics Letters 2022. — Vol. 47. Issue 17. № 17. — P. 4403-4406
11Kashapov A., Bezus E.A., Bykov D.A. etc. Оптический дифференциатор второго порядка на основе композитной структуры металл-диэлектрик-металл // XXXIII Всероссийская школа-семинар «Волновые явления: физика и применения» имени профессора А.П. Сухорукова («Волны-2022»). — 2022. — P. 19-21
12Bykov D.A., Bezus E.A., Morozov A.A. etc. Optical properties of guided-mode resonant gratings with linearly varying period // Physical Review A 2022. — Vol. 106.
2023
1Doskolovich L.L., Kashapov A.I., Bezus E.A. etc. Optical computation of the Laplace operator at oblique incidence using a multilayer metal-dielectric structure // Optics Express 2023. — Vol. 31. Issue 10. № 10. — P. 17050-17064
3Kashapov A.I., Bezus E.A., Bykov D.A. etc. A Second-Order Optical Differentiator Based on a Metal–Dielectric–Metal Composite Structure // Bulletin of the Russian Academy of Sciences: Physics 2023. — Vol. 87. Issue 1. № 1. — P. 13-17
4Golovastikov N.V., Bykov D.A., Bezus E.A. etc. Lines of Quasi-BICs and Butterworth Line Shape in Stacked Resonant Gratings: Analytical Description // PHOTONICS 2023. — Vol. 10. Issue 4. № 4.
5Bykov D.A., Bezus E.A., Doskolovich L.L.Coupled-mode theory for resonant gratings with a varying period // Computer Optics 2023. — Vol. 47. Issue 3. № 3. — P. 341-349
6Kashapov A.I., Doskolovich L.L., Bezus E.A. etc. Second-order optical differentiation of a 3D light beam at oblique incidence using a multilayer metal-dielectric structure // Computer Optics 2023. — Vol. 47. Issue 6. № 6. — P. 845-855
7Kashapov A.I., Doskolovich L.L., Bezus E.A. etc. Analog optical differentiation using metal-dielectric layered structures // International Conference on Metamaterials, Photonic Crystals and Plasmonics. — 2023. — P. 732-733
8Bykov D.A., Bezus E.A., Kashapov A.I. etc. Optical properties of resonant gratings with spatially varying period // International Conference on Metamaterials, Photonic Crystals and Plasmonics. — 2023. — P. 734-735
9Bykov D.A., Bezus E.A., Doskolovich L.L.Resonant Effects in Subwavelength Diffraction Gratings with Varying Period in the Case of Oblique Incidence // Optical Memory and Neural Networks (Information Optics) 2023. — Vol. 32. — P. S84-S89
10Wang K., Gu T., Bykov D.A. etc. Tunable nanolaser based on quasi-BIC in a slanted resonant waveguide grating // Optics Letters 2023. — Vol. 48. Issue 15. № 15. — P. 4121-4124
11Bykov D.A., Bezus E.A., Doskolovich L.L.From coupled plane waves to the coupled-mode theory of guided-mode resonant gratings // Photonics and Nanostructures - Fundamentals and Applications 2023. —
12Soshnikov D.V., Doskolovich L.L., Motz G.A. etc. Design of Cascaded Diffractive Optical Elements for Optical Beam Shaping and Image Classification Using a Gradient Method // PHOTONICS 2023. — Vol. 10. Issue 7. № 7.
2007
1Belotelov V.I., Doskolovich L.L., Kotov V.A. etc. Faraday effect enhancement in metal-dielectric plasmonic systems // Proceedings of SPIE - The International Society for Optical Engineering. — 2007. — Vol. 6581.
2Belotelov V.I., Doskolovich L.L., Kotov V.A. etc. Magnetooptical effects at the Rayleigh-Wood and plasmon anomalies // Proceedings of SPIE - The International Society for Optical Engineering. — 2007. — Vol. 6728.
3Belotelov V.I., Doskolovich L.L., Kotov V.A. etc. Magnetooptical effects in the metal-dielectric gratings // Optics Communications 2007. — Vol. 278. Issue 1. — P. 104-109