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Doskolovich, Leonid Leonidovich
Statistics Math-Net.Ru
Total publications: 59
Scientific articles: 59

Number of views:
This page:660
Abstract pages:10844
Full texts:3780
References:1843
Professor
Doctor of physico-mathematical sciences (2001)
Speciality: 01.04.05 (Optics)
Birth date: 1966
E-mail:
Website: https://ipsiras.ru/staff/Doskolovich.htm

https://www.mathnet.ru/eng/person50251
List of publications on Google Scholar
List of publications on ZentralBlatt
https://elibrary.ru/author_items.asp?authorid=10689

Publications in Math-Net.Ru Citations
2023
1. A. I. Kashapov, L. L. Doskolovich, E. A. Bezus, N. V. Golovastikov, D. A. Bykov, “Second-order optical differentiation of a 3D light beam at oblique incidence using a multilayer metal-dielectric structure”, Computer Optics, 47:6 (2023),  845–855  mathnet
2. D. V. Soshnikov, L. L. Doskolovich, E. V. Byzov, “Gradient method for designing cascaded DOEs and its application in the problem of classifying handwritten digits”, Computer Optics, 47:5 (2023),  691–701  mathnet
3. D. A. Bykov, E. A. Bezus, L. L. Doskolovich, “Coupled-mode theory for resonant gratings with a varying period”, Computer Optics, 47:3 (2023),  341–349  mathnet 2
4. E. V. Byzov, L. L. Doskolovich, S. V. Kravchenko, M. A. Moiseev, N. L. Kazanskii, “Design of optical elements for an extended light source”, Computer Optics, 47:1 (2023),  40–47  mathnet 4
2022
5. M. M. Hamza, V. A. Blank, V. V. Podlipnov, L. L. Doskolovich, R. V. Skidanov, B. Fan, “Spectral lenses to highlight blood vessels in the skin”, Computer Optics, 46:6 (2022),  899–904  mathnet
6. A. A. Mingazov, L. L. Doskolovich, D. A. Bykov, E. V. Byzov, “Support quadric method in non-imaging optics problems that can be reformulated as a mass transfer problem”, Computer Optics, 46:3 (2022),  353–365  mathnet
7. L. L. Doskolovich, A. A. Mingazov, E. V. Byzov, D. A. Bykov, E. A. Bezus, “Method for calculating the eikonal function and its application to design of diffractive optical elements for optical beam shaping”, Computer Optics, 46:2 (2022),  173–183  mathnet 6
2021
8. L. L. Doskolovich, D. A. Bykov, A. A. Mingazov, E. A. Bezus, “Method for calculating a refractive optical element forming given illuminance distribution and wavefront”, Computer Optics, 45:6 (2021),  818–827  mathnet 2
9. D. Nesterenko, A. A. Morozov, L. L. Doskolovich, “Optical image edge detection by transmissive metal-dielectric-metal structures”, Computer Optics, 45:5 (2021),  678–684  mathnet 3
10. A. I. Kashapov, L. L. Doskolovich, D. A. Bykov, E. A. Bezus, D. Nesterenko, “Optical differentiator based on a trilayer metal-dielectric structure”, Computer Optics, 45:3 (2021),  356–363  mathnet 3
11. L. L. Doskolovich, D. A. Bykov, G. I. Greisukh, Yu. S. Strelkov, “Design of a stigmatic lens with minimal Fresnel losses”, Computer Optics, 45:3 (2021),  350–355  mathnet 2
12. A. A. Mingazov, L. L. Doskolovich, D. A. Bykov, “Supporting quadric method for collimated beams”, Computer Optics, 45:1 (2021),  29–37  mathnet 1
2020
13. E. V. Byzov, L. L. Doskolovich, S. V. Kravchenko, N. L. Kazanskii, “Analytical design of refractive optical elements generating a prescribed two-dimensional intensity distribution”, Computer Optics, 44:6 (2020),  883–892  mathnet 2
14. E. V. Byzov, S. V. Kravchenko, M. A. Moiseev, L. L. Doskolovich, “Optimization method for designing optical elements with an extended light source”, Computer Optics, 44:5 (2020),  712–720  mathnet 1
15. E. S. Andreev, E. V. Byzov, D. A. Bykov, M. A. Moiseev, N. L. Kazanskii, L. L. Doskolovich, “Design and fabrication of a freeform mirror generating a uniform illuminance distribution in a rectangular region”, Computer Optics, 44:4 (2020),  540–546  mathnet 8
16. R. V. Skidanov, L. L. Doskolovich, S. V. Ganchevskaya, V. A. Blank, V. V. Podlipnov, N. L. Kazanskii, “Experiment with a diffractive lens with a fixed focus position at several given wavelengths”, Computer Optics, 44:1 (2020),  22–28  mathnet 9
2019
17. A. A. Mingazov, L. L. Doskolovich, D. A. Bykov, N. L. Kazanskiy, “The two reflector design problem for forming a flat wavefront from a point source as an optimal mass transfer problem”, Computer Optics, 43:6 (2019),  968–975  mathnet 5
18. L. L. Doskolovich, E. A. Bezus, D. A. Bykov, R. V. Skidanov, N. L. Kazanskiy, “Calculation of a diffractive lens having a fixed focal position at several prescribed wavelengths”, Computer Optics, 43:6 (2019),  946–955  mathnet 15
19. L. L. Doskolovich, A. A. Mingazov, D. A. Bykov, E. A. Bezus, “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, 43:5 (2019),  705–713  mathnet 7
2018
20. E. A. Kadomina, E. A. Bezus, L. L. Doskolovich, “Bragg gratings with parasitic scattering suppression for surface plasmon polaritons”, Computer Optics, 42:5 (2018),  800–806  mathnet 7
21. L. L. Doskolovich, K. V. Andreeva, D. A. Bykov, “Design of an axisymmetric optical element generating a prescribed illuminance distribution and wavefront”, Computer Optics, 42:5 (2018),  772–778  mathnet 1
22. A. A. Mingazov, D. A. Bykov, L. L. Doskolovich, N. L. Kazanskii, “Variational interpretation of the eikonal calculation problem from the condition of generating a prescribed irradiance distribution”, Computer Optics, 42:4 (2018),  568–573  mathnet 5
23. L. L. Doskolovich, A. A. Mingazov, D. A. Bykov, E. S. Andreev, “Variational approach to eikonal function computation”, Computer Optics, 42:4 (2018),  557–567  mathnet 1
24. L. L. Doskolovich, E. A. Bezus, N. L. Kazanskii, “Multifocal spectral diffractive lens”, Computer Optics, 42:2 (2018),  219–226  mathnet 10
25. E. A. Bezus, D. A. Bykov, L. L. Doskolovich, “On the relation between the propagation constant of Bloch surface waves and the thickness of the upper layer of a photonic crystal”, Computer Optics, 42:1 (2018),  22–27  mathnet 8
2017
26. K. V. Andreeva, E. S. Andreev, M. A. Moiseev, S. V. Kravchenko, E. V. Byzov, L. L. Doskolovich, “Design of Extruded refractive optical elements to generate a prescribed intensity distribution”, Computer Optics, 41:6 (2017),  812–819  mathnet 1
27. E. A. Kadomina, E. A. Bezus, L. L. Doskolovich, “Generation of high-frequency interference patterns of evanescent electromagnetic waves at Fabry-Perot resonances in dielectric photonic crystals”, Computer Optics, 41:3 (2017),  322–329  mathnet 3
28. S. I. Kharitonov, L. L. Doskolovich, N. L. Kazanskii, “Asymptotic methods for solving problems of diffraction by non-periodic structures”, Computer Optics, 41:2 (2017),  160–168  mathnet
29. N. V. Golovastikov, D. A. Bykov, L. L. Doskolovich, “Temporal differentiation and integration of 3D optical pulses using phase-shifted Bragg gratings”, Computer Optics, 41:1 (2017),  13–21  mathnet 25
2016
30. K. V. Andreeva, M. A. Moiseev, S. V. Kravchenko, L. L. Doskolovich, “Design of optical elements with TIR freeform surface”, Computer Optics, 40:4 (2016),  467–474  mathnet 8
31. S. I. Kharitonov, L. L. Doskolovich, N. L. Kazanskii, “Solving the inverse problem of focusing laser radiation in a plane region using geometrical optics”, Computer Optics, 40:4 (2016),  439–450  mathnet 23
32. L. L. Doskolovich, E. S. Andreev, E. V. Byzov, “Analytical design of mirrors generating prescribed two-dimensional intensity distributions”, Computer Optics, 40:3 (2016),  346–352  mathnet
33. L. L. Doskolovich, E. S. Andreev, M. A. Moiseev, “On optical surface reconstruction from a prescribed source-target mapping”, Computer Optics, 40:3 (2016),  338–345  mathnet 1
34. S. I. Kharitonov, N. L. Kazanskiy, L. L. Doskolovich, Yu. S. Strelkov, “Modeling the reflection of the electromagnetic waves at a diffraction grating generated on a curved surface”, Computer Optics, 40:2 (2016),  194–202  mathnet 5
35. E. A. Kadomina, E. A. Bezus, L. L. Doskolovich, “Resonant photonic-crystal structures with a diffraction grating for refractive index sensing”, Computer Optics, 40:2 (2016),  164–172  mathnet 10
36. E. A. Kadomina, E. A. Bezus, L. L. Doskolovich, “Generation of 1D interference patterns of Bloch surface waves”, Zhurnal Tekhnicheskoi Fiziki, 86:9 (2016),  107–112  mathnet  elib; Tech. Phys., 61:9 (2016), 1389–1394 1
2015
37. D. A. Bykov, L. L. Doskolovich, “On the use of the Fourier modal method for calculation of localized eigenmodes of integrated optical resonators”, Computer Optics, 39:5 (2015),  663–673  mathnet 8
38. S. V. Kravchenko, E. V. Byzov, M. A. Moiseev, L. L. Doskolovich, “Design of optical elements with two refractive surfaces to generate a prescribed intensity distribution”, Computer Optics, 39:4 (2015),  508–514  mathnet 2
39. E. A. Kadomina, E. A. Bezus, L. L. Doskolovich, “Spectrally selective near-field enhancement in a photonic crystal structure with a diffraction grating”, Computer Optics, 39:4 (2015),  462–468  mathnet 3
40. E. S. Andreev, M. A. Moiseev, K. V. Borisova, L. L. Doskolovich, “Monte-carlo ray tracing for axisymmetrical optical elements”, Computer Optics, 39:3 (2015),  357–362  mathnet 4
41. L. L. Doskolovich, K. V. Borisova, M. A. Moiseev, “Design of a mirror for generating a prescribed continuous illuminance distribution based on the supporting quadric method”, Computer Optics, 39:3 (2015),  347–356  mathnet 1
42. L. L. Doskolovich, M. A. Moiseev, N. L. Kazanskiy, “On using a supporting quadric method to design diffractive optical elements”, Computer Optics, 39:3 (2015),  339–346  mathnet 2
43. L. L. Doskolovich, N. V. Golovastikov, D. A. Bykov, S. I. Kharitonov, “Resonant approximation of phase-shifted Bragg grating (PSBG) spectra”, Computer Optics, 39:3 (2015),  311–318  mathnet
44. N. L. Kazanskiy, S. I. Kharitonov, L. L. Doskolovich, A. V. Pavelev, “Modeling the performance of a spaceborne hyperspectrometer based on the Offner scheme”, Computer Optics, 39:1 (2015),  70–76  mathnet 35
2014
45. L. L. Doskolovich, E. A. Bezus, D. A. Bykov, “On the compensation of the diffraction orders overlap effect in the Offner spectrometer”, Computer Optics, 38:4 (2014),  777–781  mathnet
46. E. V. Byzov, M. A. Moiseev, L. L. Doskolovich, “Method for computation of led secondary optics for automotive headlight”, Computer Optics, 38:4 (2014),  743–748  mathnet
47. E. A. Bezus, L. L. Doskolovich, “Phase modulation and refraction of surface plasmon polaritons with parasitic scattering suppression”, Computer Optics, 38:4 (2014),  623–528  mathnet
48. D. A. Bykov, L. L. Doskolovich, “On the diffraction of an optical beam by a phase shifted Bragg grating”, Computer Optics, 38:4 (2014),  590–597  mathnet
49. K. V. Borisova, M. A. Moiseev, L. L. Doskolovich, E. S. Andreev, “Design of reflective surface focusing light flux into an arbitrary curve”, Computer Optics, 38:3 (2014),  449–455  mathnet
50. L. L. Doskolovich, M. A. Moiseev, E. V. Byzov, S. V. Kravchenko, “Computation of light field eikonal to focus into a set of points”, Computer Optics, 38:3 (2014),  443–448  mathnet
51. S. V. Kravchenko, M. A. Moiseev, L. L. Doskolovich, “Design of refractive optical elements with two free-form surfaces for generation of prescribed illuminance distribution”, Computer Optics, 38:3 (2014),  435–442  mathnet
52. N. V. Golovastikov, D. A. Bykov, L. L. Doskolovich, “Spatial integration of optical beams using phase-shifted Bragg grating”, Computer Optics, 38:3 (2014),  372–376  mathnet
53. A. Yu. Dmitriev, D. L. Doskolovich, L. L. Doskolovich, N. L. Kazanskii, “Analytic design of refractive optical elements generating one-parameter directivity diagram”, Computer Optics, 38:2 (2014),  207–212  mathnet
54. E. A. Bezus, L. L. Doskolovich, D. A. Bykov, V. A. Soifer, “Phase modulation of Bloch surface waves with the use of a diffraction microrelief at the boundary of a one-dimensional photonic crystal”, Pis'ma v Zh. Èksper. Teoret. Fiz., 99:2 (2014),  67–71  mathnet  elib; JETP Letters, 99:2 (2014), 63–66  isi  elib  scopus 22
55. N. V. Golovastikov, D. A. Bykov, L. L. Doskolovich, “Resonant diffraction gratings for spatial differentiation of optical beams”, Kvantovaya Elektronika, 44:10 (2014),  984–988  mathnet  elib [Quantum Electron., 44:10 (2014), 984–988  isi  scopus] 38
2013
56. E. A. Bezus, A. A. Morozov, B. O. Volodkin, S. V. Alferov, L. L. Doskolovich, K. N. Tukmakov, “Formation of high-frequency two-dimensional interference patterns of surface plasmon polaritons”, Pis'ma v Zh. Èksper. Teoret. Fiz., 98:6 (2013),  357–360  mathnet  elib; JETP Letters, 98:6 (2013), 317–320  isi  elib  scopus 4
2012
57. D. A. Bykov, L. L. Doskolovich, V. A. Soifer, “Integration of optical pulses by resonant diffraction gratings”, Pis'ma v Zh. Èksper. Teoret. Fiz., 95:1 (2012),  8–12  mathnet  elib; JETP Letters, 95:1 (2012), 6–9  elib  scopus 10
2011
58. E. A. Bezus, L. L. Doskolovich, N. L. Kazanskii, “Interference pattern generation in evanescent electromagnetic waves for nanoscale lithography using waveguide diffraction gratings”, Kvantovaya Elektronika, 41:8 (2011),  759–764  mathnet  elib [Quantum Electron., 41:8 (2011), 759–764  isi  scopus] 50
2009
59. A. N. Kalish, V. I. Belotelov, D. A. Bykov, L. L. Doskolovich, A. K. Zvezdin, “Magnetooptical Effects in Plasmonic Bilayered Heterostructures”, Kazan. Gos. Univ. Uchen. Zap. Ser. Fiz.-Mat. Nauki, 151:1 (2009),  95–102  mathnet

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