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Leonid Leonidovich Doskolovich (b. 1966)

Graduated with honours (1989) from the S.P. Korolyov Kuibyshev Aviation Institute (presently, Samara State Aerospace University named after S.P. Korolyov (SSAU)), majoring in Applied Mathematics. He received his Doctor in Physics & Maths (2001) degrees from Samara State Aerospace University. Leading researcher of the Image Processing Systems Institute of the RAS, professor at SSAU’s Technical Cybernetics sub-department. Current research interests include diffractive optics, laser information technologies, nanophotonics.

Казанский

List of main publications

Books:

  1. V. Soifer, V. Kotlyar, L. Doskolovich. Iterative Methods for Diffractive Optical Elements Computation // Taylor&Francis LTD, 1997, 244 p.
  2. Methods of Computer Optics. Edited by V.A. Soifer // М.: Физматлит, 2000, 688 p. (in Russian)
  3. Methods of Computer Optics, 2nd Edition. Edited by V.A. Soifer // М.: Физматлит, 2003, p. (in Russian)
  4. Methods for Computer Design of Diffractive Optical Elements. Edited by Victor A. Soifer // A Wiley Interscience Publication. John Wiley & Sons, Inc., New York, 2002, 765 p.
  5. Methods for Computer Design of Diffractive Optical Elements, edited by V.A. Soifer // Tianjin Science & Tecchlonogy Press, Tianjin, 2007, 570 p. (in Chinese).
  6. Diffractive Computer Optics. Edited by V.A. Soifer // М.: Физматлит, 2007, 736 p. (in Russian).
  7. Diffractive Nanophotonics. Edited by Victor A. Soifer // М.: Физматлит, 2011, 679 p. (in Russian).
  8. Computer Design of diffractive optics. Edited by Victor A. Soifer // Cambridge International Science Publishing Limited in association with Woodhead Publishing Limited, 2013, 679 p.
  9. Diffractive Nanophotonics. Edited by Victor A. Soifer // CRC Press, Taylor & Francis Group, 2014, 679 p.
  10. Diffractive optics and nanophotonics. Edited by Victor A. Soifer // М.: Физматлит, 2014, 608 p. (in Russian).

Main Papers published from 2007 in refereed journals and indexed by Web of Sciences:

2007

  1. V.I. Belotelov, L.L. Doskolovich, and A.K. Zvezdin. Extraordinary magneto-optical effects and transmission through metal-dielectric plasmonic systems // Physical Review Letters, 2007, Vol. 98, pp. 077401(4)
  2. L.L. Doskolovich, N.L. Kazanskiy, S. Bernard. Designing a mirror to form a line-shaped directivity diagram. // Journal of Modern Optics, 2007, Vol. 54 (4), pp. 589 - 597.
  3. V.I. Belotelov, L.L. Doskolovich, V.A. Kotov, A.K. Zvezdin. Magnetooptical Properties of Perforated Metallic films // Journal of Magnetism and Magnetic Materials, Vol. 310, Issue 2, Part 3, 2007, pp. e843-e845.
  4. L.L. Doskolovich, N.L. Kazanskiy, P. Repetto, Ye.V. Tyavin. Design and investigation of color separation diffraction gratings // Journal of Optics A: Pure and Applied Optics, 2007, Vol. 9 (2), pp. 123-127.
  5. L.L. Doskolovich, N.L. Kazanskiy, S.N. Khonina, R.V. Skidanov, N. Heikkila, S. Siitonen, J. Turunen. Design and investigation of color separation diffraction gratings // Applied Optics, 2007, Vol. 46, pp. 2825-2830.
  6. V.I. Belotelov, L.L. Doskolovich, V.A. Kotov, E.A. Bezus, D.A. Bykov, A.K. Zvezdin. Magnetooptical effects in the metal-dielectric gratings // Optics communications, 2007, vol. 278, pp. 104-109.
  7. L.L.Doskolovich, E.A.Kadomina, I.I.Kadomin, Nanoscale photolithography by means of surface plasmon interference // Journal of Optics A: Pure and Applied Optics, 2007, vol. 9, pp. 854-857.

2008

  1. A. Belousov, L. Doskolovich, S. Kharitonov, A gradient method of designing optical elements for forming a specified irradiance on a curved surface // J. Opt.Technol., 2008, vol. 75, pp. 161-165.
  2. E.A.Bezus, D.A.Bykov, L.L. Doskolovich, I.I. Kadomin, Diffraction gratings for generating varying-period interference patterns of surface plasmons // Journal of Optics A: Pure and Applied Optics, 2008, vol. 10, 095204 (5pp)
  3. V.I. Belotelov, D.A. Bykov, L.L. Doskolovich, A.N. Kalish, V.A. Kotov, A.K. Zvezdin, Giant Magnetooptical Orientational Effect in Plasmonic Heterostructures // Optics Letters, 2009, vol. 34 (4), pp.398-400.

2009

  1. V. I. Belotelov, D. A. Bykov, L. L. Doskolovich, A. N. Kalish, A. K. Zvezdin, Optical properties of perforated metal-dielectric heterostructures magnetized in the plane // Physics of the Solid State, 2009, vol. 51 (8), с. 1656-1662.
  2. L. Doskolovich and M. Moiseev, Calculations for refracting optical elements for forming directional patterns in the form of a rectangle // J. Opt. Technol., 2009, vol. 76, pp. 430-434.
  3. V.I. Belotelov, D.A. Bykov, L.L. Doskolovich, A.N. Kalish, A.K. Zvezdin, Extraordinary transmission and giant magneto-optical transverse Kerr effect in plasmonic nanostructured films // J. Opt. Soc. Am. B, 2009, Vol. 26(8), pp.1594-1598.
  4. L.L. Doskolovicha, M.A. Moiseev. Calculations for refracting optical elements for forming directional patterns in the form of a rectangle // J. Opt. Technol., 2009, 76 (7), pp. 430-434.

2010

  1. E.A. Bezus, L.L. Doskolovich, N.L. Kazanskiy, V.A. Soifer, S.I. Kharitonov. Design of diffractive lenses for focusing surface plasmons // Journal of Optics, 2010, vol. 12, 015001 (7pp).
  2. V.I. Belotelov , D.A. Bykov, L.L. Doskolovich, A.N. Kalish, A.K. Zvezdin, Giant transversal Kerr effect in magneto-plasmonic heterostructures: The scattering-matrix method // Journal of Experimental and Theoretical Physics, 2010, vol. 110(5), pp. 816-824.
  3. E.A. Bezus, L.L. Doskolovich. Grating-assisted generation of 2D surface plasmon interference patterns for nanoscale photolithography // Optics Communications, 2010, vol. 283, pp. 2020-2025.
  4. D.A. Bykov, L.L. Doskolovich, Extraordinary magneto-optical effect of transmitted wave phase change in periodic diffraction structures // Письма в ЖТФ, 2010, том 36 (13), с. 22-30.
  5. M.A. Moiseev, L.L. Doskolovich. Design of refractive spline surface for generating required irradiance distribution with large angular dimension // Jour. of Modern Optics, 2010, Vol. 57(7), pp.536-544.
  6. V.I. Belotelov, D.A. Bykov, L.L. Doskolovich, A.K. Zvezdin. On surface plasmon polariton wavepacket dynamics in metal-dielectric heterostructures // Journal of Physics: Condensed matter, 2010, vol. 22, 395301 (8pp).
  7. E.A. Bezus, L.L. Doskolovich, N.L. Kazanskiy, V.A. Soifer. Designing diffraction optical elements for the focusing of plasmon modes // Journal of Optical Technology, 2010, vol. 77 (7), с. 459-460.
  8. D.A. Bykov, L.L. Doskolovich. Magneto-optical resonances in periodic dielectric structures magnetized in plane // Journal of Modern Optics, 2010, vol. 57, N 17, pp. 1611-1618.
  9. D. A. Bykov , L. L. Doskolovich, V. A. Soifer, N. L. Kazanskiy. 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 (6), pp. 967-974.
  10. A.N. Kalish, V.I. Belotelov, D.A. Bykov, L.L. Doskolovich, A.K. Zvezdin. Optical properties of two-layer one-dimensional magneto-plasmonic crystals // Journal of Optical Technology, 2010, vol. 77(12), с. 784-785.

2011

  1. E.A. Bezus, L.L. Doskolovich, N.L. Kazanskiy, Evanescent-wave interferometric nanoscale photolithography using guided-mode resonant gratings // Microelectronic Engineering, 2011, vol. 88 (2), pp. 170-174.
  2. Andreev S.N., Belotelov V.I., Bykov D.A., Doskolovich L.L., Tarakanov V.P., Zvezdin A.K. Dynamics of surface plasmon polaritons in plasmonic crystals // JOSA B, 2011, Vol. 28 Issue 5, pp.1111-1117.
  3. Moiseev M.A., Doskolovich L.L., Kazanskiy N.L. Design of high-efficient freeform LED lens for illumination of elongated rectangular regions // Optics Express, 2011, Vol. 19 (S3), pp. A225-A233.
  4. L.L. Doskolovich, O.I. Petrova, M.A. Moiseev. LED lighting system based on modules that form uniform irradiance of a hexagonal region // Journal of Optical Technology, 2011, vol 78 (2), pp. 105-109.
  5. E.A. Bezus, L.L. Doskolovich, N. L. Kazanskiy. Scattering suppression in plasmonic optics using a simple two-layer dielectric structure // Applied Physics Letters, 2011, Vol. 98 (22), pp. 221108-1-3.
  6. E.A. Bezus, L.L. Doskolovich, N.L.Kazanskii. Interference pattern generation in evanescent electromagnetic waves for nanoscale lithography using waveguide diffraction gratings // Quantum Electronics, 2011, vol. 41 (8), pp. 759-764.
  7. D. Bykov, L. Doskolovich, V. Soifer. Temporal differentiation of optical signals using resonant gratings // Optics Letters, 2011, Vol. 36 (17), pp. 3509-3511.
  8. E. A. Bezus, L. L. Doskolovich, N. L. Kazanskiy, V. A. Soifer. Scattering in elements of plasmon optics suppressed by two-layer dielectric structures // Technical Physics Letters, 2011, vol. 37 (12), pp. 1091-1095.

2012

  1. V. Osipov, L.L. Doskolovich, E.A. Bezus, W. Cheng, A. Gaidukeviciute, B. Chichkov. Fabrication of three-focal diffractive lenses by two-photon polymerization technique // Applied Physics A: Materials Science & Processing, vol. 107(3), 525–529 (2012).
  2. D.A. Bykov, L.L. Doskolovich, V.A. Soifer. Integration of optical pulses by resonant diffraction gratings // JETP Letters, 2012, vol. 95 (1), с. 6-9.
  3. D.A. Bykov, L.L. Doskolovich, V.A. Soifer. On the ability of resonant diffraction gratings to differentiate a pulsed optical signal // Journal of Experimental and Theoretical Physics, 2012, vol. 114 (5), pp. 724-730.
  4. Moiseev M.A., Doskolovich L.L. Design of TIR optics generating the prescribed irradiance distribution in the circle region // J. Opt. Soc. Am. A, 2012, Vol. 29 (9), pp. 1758-1763.
  5. D.A. Bykov, L.L. Doskolovich, V.A. Soifer. Single-resonance diffraction gratings for time-domain pulse transformations: integration of optical signals // J. Opt. Soc. Am. A, 2012, Vol. 29 (8), pp. 1734-1740.
  6. E.A. Bezus, L.L. Doskolovich. Stable algorithm for the computation of the electromagnetic field distribution of eigenmodes of periodic diffraction structures // J. Opt. Soc. Am. A, 2012, Vol. 29 (11), pp.2307-2313.
  7. E. Aslanov, L.L. Doskolovich, M.M. Moiseev. Thin LED collimator with free-form lens array for illumination applications // Applied Optics, 2012, Vol. 51 (30), pp. 7200-7205.

2013

  1. Plasmon-mediated magneto-optical transparency // V.I. Belotelov, L.E. Kreilkamp, I.A. Akimov, A.N. Kalish, D.A. Bykov, S. Kasture, V.J. Yallapragada, Achanta Venu Gopal, A.M. Grishin, S.I. Khartsev, M. Nur-E-Alam, M. Vasiliev, L.L. Doskolovich, D.R. Yakovlev, K. Alameh, A.K. Zvezdin, M. Bayer, Plasmon-mediated magneto-optical transparency // Nature Communications, 2013, Vol. 4., p. 2128.
  2. D.A. Bykov, L.L. Doskolovich. Numerical methods for calculating poles of the scattering matrix with applications in grating theory // Journal of Lightwave Technology, 2013, vol. 31 (5), pp. 793-80.
  3. L.L. Doskolovich, A.Y. Dmitriev, E.A. Bezus, M.A. Moiseev, Analytical design of freeform optical elements generating an arbitrary-shape curve // Applied Optics, 2013, Vol. 52 (10), pp. 2521-2526. (2013)
  4. L.L. Doskolovich, A.Y. Dmitriev, S.I. Kharitonov Analytic design of optical elements generating a line focus // Optical Engineering, 2013, Vol. 52 (9), pp. 091707-1-7.
  5. D.A. Bykov, L.L. Doskolovich, N.V. Golovastikov, V.A. Soifer. Time-domain differentiation of optical pulses in reflection and in transmission using the same resonant grating // Journal of Optics, 2013, vol. 15, 105703 (6pp).
  6. E. A. Bezus, A. A. Morozov, B. O. Volodkin, K. N. Tukmakov, S. V. Alferov, L. L. Doskolovich, Formation of high-frequency two-dimensional interference patterns of surface plasmon polaritons // JETP Letters, 2013, vol. 98(6), pp. 317-320.
  7. Emil R. Aslanov, Leonid L. Doskolovich, Mikhail A. Moiseev, Evgeni A. Bezus,Nikolay L. Kazanskiy, Design of an optical element forming an axial line segment for efficient LED lighting systems // Optics Express, 2013, vol. 21 (23), pp. 28651-28656.
  8. Mikhail A. Moiseev, Leonid L. Doskolovich, Kseniya V. Borisova, Egor V. Byzov, Fast and robust technique for design of axisymmetric TIR optics in case of an extended light source // Journal of Modern Optics, 2013, vol. 60 (14), pp. 1100-1106.

2014

  1. 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 // JETP Letters, 2014, vol. 99(2), pp. 63–66.
  2. L.L. Doskolovich, D.A. Bykov, E.A. Bezus, V.A. Soifer, Spatial differentiation of optical beams using phase-shifted Bragg grating // Optics Letters, 2014, vol. 39(5), pp. 1278–1281.
  3. E.A. Bezus, L.L. Doskolovich, N.L. Kazanskiy, Low-scattering surface plasmon refraction with isotropic materials // Optics Express, 2014, vol. 22(11), pp. 13547–13554.
  4. D.A. Bykov, L.L. Doskolovich, E.A. Bezus, V.A. Soifer, Optical computation of the Laplace operator using phase-shifted Bragg grating //Optics Express, 2014, vol. 22(21), pp. 25084–25092.
  5. D.A. Bykov, L.L. Doskolovich, Controlling the surface plasmon excitation efficiency using dielectric magneto-optical cavity //Journal of Optics, 2014, vol. 16 (8), pp. 085001.
  6. N.V. Golovastikov, D.A. Bykov, L.L .Doskolovich, Resonant diffraction gratings for spatial differentiation of optical beams // Quantum Electronics, 2014, vol. 44 (10), pp. 984 – 988.
  7. L.L. Doskolovich, A. Yu. Dmitriev, M.A. Moiseev, N.L. Kazanskiy, Analytical design of refractive optical elements generating one-parameter intensity distributions // JOSA A, 2014, vol. 31(11), pp. 2538-2544.
  8. M.A. Moiseev, S.V. Kravchenko, L.L. Doskolovich, Design of efficient LED optics with two free-form surfaces // Optics Express, 2014, vol. 22, pp. A1926-A1935.
  9. Belotelov V. I., Kreilkamp L. E., Kalish A. N., Akimov I. A., Bykov D. A., Kasture S., Yallapragada V. J., Gopal A. V., Grishin A. M., Khartsev S. I., Nur-E-Alam M., Vasiliev M., Doskolovich L. L., Yakovlev D. R., Alameh K., Zvezdin A. K., Bayer M. Magnetophotonic intensity effects in hybrid metal-dielectric structures // Physical Review B., 2014, Vol. 89. P. 045118.

2015

  1. E.A. Bezus, L.L. Doskolovich, V.A. Soifer, Near-wavelength diffraction gratings for surface plasmon polaritons // Optics Letters, 2015, vol. 40 (21), pp. 4935–4938.
  2. N. Golovastikov, D. Bykov, and L. Doskolovich, Spatiotemporal pulse shaping using resonant diffraction gratings // Optics Letters, 2015, vol. 40, pp. 3492-3495.
  3. L.L. Doskolovich, E.A. Bezus, D.A. Bykov, Phase-shifted Bragg gratings for Bloch surface waves // Optics Express, 2015, vol. 23(21), pp. 27034–27045.
  4. L.L. Doskolovich, M.A. Moiseev, E.A. Bezus, V. Oliker, On the use of the supporting quadric method in the problem of the light field eikonal calculation // Optics Express, 2015, vol. 23(15), pp. 19605–19617.
  5. D. Bykov and L. Doskolovich, Spatiotemporal coupled-mode theory of guided-mode resonant gratings // Optics Express, 2015, vol. 23, pp. 19234-19241.
  6. M.A. Moiseev, E.V. Byzov, S.V. Kravchenko, L.L. Doskolovich, Design of LED refractive optics with prede-termined balance of ray deflection angles between inner and outer surfaces // Optics Express, 2015, vol. 23(19), pp. A1140–A1148.
  7. D.A. Bykov, L.L. Doskolovich, ω-kx Fano line shape in photonic crystal slabs // Physical Review A, 2015, vol. 92 (1), 013845.
  8. E.A. Bezus, D.A. Bykov, L.L. Doskolovich, Antireflection layers in low-scattering plasmonic optics // Photonics and Nanostructures — Fundamentals and Applications, 2015, vol.13, pp. 101–105.
  9. V. Osipov, L.L. Doskolovich, E.A. Bezus, T. Drew, K. Zhou, K. Sawalha, G. Swadener, J.S.W. Wolffsohn, Application of nanoimprinting technique for fabrication of trifocal diffractive lens with sine-like radial profile // Journal of Biomedical Optics, 2015, vol. 20, 025008 (7pp).
  10. N.V. Golovastikov, D.A. Bykov, L.L. Doskolovich, E.A. Bezus, Spatial optical integrator based on phase-shifted Bragg gratings // Optics Communications, 2015, vol. 338, pp. 457–460.
  11. Н.В. Головастиков, Д.А. Быков, Л.Л. Досколович, В.А. Сойфер, Преобразование пространственно-временного оптического импульса резонансной дифракционной решёткой // ЖЭТФ, 2015, том 148 (5), с. 899-907.
  12. Е.А. Безус, Л.Л. Досколович, Преломление и фазовая модуляция поверхностных электромагнитных волн, распространяющихся на границе одномерного фотонного кристалла // Оптика и Спектроскопия, 2015, том 119 (5), с. 759-764.
 

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