E-mail address:

    Alexey A. Shcherbakov

    shcherbakov_photoAlexey A. Shcherbakov

    ORCID: http://orcid.org/0000-0002-9070-5439
    ResearcherID: D-3689-2013
    Scopus AuthorID: 55636319972
    Google Scholar


    Professional skills development:

    Current position: 
    Senior Researcher at MIPT, 9 Institustky, 141707 Dolgoprudny, Russia


    Tel (mob.): 8 903 503–67–00
    E-mail: alex.shcherbakov <*> phystech.edu

    Scientific interests: 
    Theory and numerical methods for the light emission, diffraction and scattering in composite media. Resonant wave phenomena. Numerical methods.

    Project leading:
    1. Research grant by Russian Scientific Foundation #17-79-20345 "Optimization and applications of resonant effects in complex metal-dielectric metasurfaces" 2017-2019.
    2. Research grant by Russian Foundation for Basic Research #14-07-31352_ofi_m “High efficient numerical methods for simulation and optimization of diffractive optical elements with subwavelength features and complex composite optical structures” 2016-2017.
    3. Research grant by Russian Foundation for Basic Research #14-07-31352_mol_a “Linear rigorous numerical methods for the light scattering and diffraction simulation” 2013-2015.
    4. Contract with Russian Ministry of Education and Sceince 14.740.11.0544 01/10/2010. “Development of rigorous numerical methods for optical high-resolution nanolithography mask simulation”.

    General physics course at MIPT (2012-2014).
    Computational nanooptics (2017-) 
    Supervisor of bachelor, master and PhD students.    

    Reviewer: OSA journals.

    1. Russian Academy of Sciences Medal for Young Scientists (2013).
    2. Russian President scholarship for young scientists and PhD students (2012-2014);
    3. Scholarship “Accueil Doc” given by “Cooperation et mobilite Internationale Rhone-Alpes”, 2009/2010;  
    4. Scholarship given by French embassy in Moscow 2009/2010;
    5. 3d diploma at regional stage of Russian Physics Olympiad 2002.
    6. Secondary education Gold Medal (2002)

    Major publications in refereed journals:

    1. A. A. Shcherbakov, Calculation of the electromagnetic scattering by non-spherical particles based on the volume integral equation in the spherical wave function basis, JQSRT, 231, 102-114 (2019)
    2. A. A. Shcherbakov, Curvilinear coordinate generalized source method for gratings having contiuous piecewise-smooth profiles.
    1. A. A. Shcherbakov, Y. V. Stebunov, D. F. Baidin, T. Kämpfe, and Y. Jourlin, Direct S-matrix calculation for diffractive structures and metasurfaces // Phys. Rev. E 97, 063301 (2018) arXiv 
    2. E. Ushakova, et. al. From colloidal CdSe quantum dots to microscale optically anisotropic supercrystals through bottom-up self-assembly // J. Mater. Chem. C, 12904, 6 (2018)
    1. A. A. Ushkov, and A. A. Shcherbakov, Temporal dispersion of Dyakonov modes induced by spatial dispersion in dielectric composites // AIP Conference Proceedings, 1874(1):040055 (2017).
    2. A. V. Tishchenko, and A. A. Shcherbakov, General analytical solution for the electromagnetic grating diffraction problem // Opt. Express, 25, 13435-13447 (2017). arXiv:1701.08434v1
    3. A. A. Ushkov, and A. A. Shcherbakov, Concurrency of anisotropy and spatial dispersion in low refractive index dielectric composites // Opt. Express, 25. 243-249 (2017) arXiv.
    4. A. A. Shcherbakov, O. Shavdina, A. V. Tishchenko, C. Veillas, I. Verrier, O. Dellea, and Y. Jourlin, Optical diffraction by ordered 2D arrays of silica microspheres // JQSRT. 189. 37-42 (2017).
    5. A. A. Shcherbakov, A. V. Tishchenko, Generalized source method in curvilinear coordinates for 2D grating diffraction simulation // JQSRT. 187. 76-96 (2017).
    1. A.A.Shcherbakov, A.V.Tishchenko. 3D periodic dielectric composite homogenization based on the Generalized Source Method // J. Opt. 17. 065101 (2015) arXiv.
    1. A.A.Shcherbakov, A.V.Tishchenko. Efficient curvilinear coordinate method for grating diffraction simulation // Opt. Express. 21. No21. 25236-25247 (2013) .
    1. A.A.Shcherbakov, A.V.Tishchenko. Light scattering in plane dielectric layers: Modeling in the 2D reciprocal space // JQSRT. 113. 2424-2430 (2012).
    2. A.A.Shcherbakov, A.V.Tishchenko. New fast and memory-sparing method for rigorous electromagnetic analysis of 2D periodic dielectric structures // JQSRT. 113. 158-171 (2012).
    1. A.A.Shcherbakov, A.V.Tishchenko, D.S.Setz, B.C.Krummacher, Rigorous S-matrix approach to the modeling of the optical properties of OLEDs // Organic Electronics. 12 (4). 654-659 (2011).
    2. A.A.Shcherbakov, A.V.Tishchenko, Light scattering calclulations in planar non-homogeneous dielectric media by means of the light diffraction calculation on gratings // AAPP, Vol. 89, Suppl. No. 1, C1V89S1P085 (2011).
    1. A.A.Shcherbakov, A.V.Tishchenko, Fast numerical method for modelling one-dimensional diffraction gratings // Quant. Electron. 40 (6). 538–544 (2010).
      А. А. Щербаков, А. В. Тищенко, Быстрый численный метод для моделирования одномерных дифракционных решеток // Квантовая электроника. 40 (6) 538-544 (2010).
    2. A. A. Shcherbakov, A. V. Tishchenko, Rigorous S-matrix based modeling of OLED's // Optics InfoBase Coneference Papers, SOLED 2010, SOTuC3 (2010). 
    3. С. А. Майоров, А. А. Щербаков. Распределение кулоновского микрополя внутри ионного кластера // Прикладная физика, № 4, С. 41-46 (2009).
      MayorovS.A., ShcherbakovA.A. Distribution of the Coulomb microfield inside an ion cluster // Plas. Phys. Rep., 36, 13, 1103-1106 (2010).
    1. I.M.Akhmedzhanov, A.V.Tishchenko, A.A.Shcherbakov. Modeling of the light scattering by nanoparticles of complex shape using the generalized source method // Opt. Spectrosc. 105(6), pp. 1033-1038 (2008).

    Conference proceedings and abstracts:
    1. A. A. Shcherbakov, T. Kaempfe, and Y. Jourlin, Far and near field optical properties of large scale spherical microparticle arrays, META'17, Incheon, Korea, 25-28 July 2017.
    2. A. A. Shcherbakov, Analytical T-matrix solution to the 1D grating diffraction problem, META'17, Incheon, Korea, 25-28 July 2017.
    3. A. A. Shcherbakov, Calculation of the electromagnetic scattering by non-spherical particles by means of the gneralized metric sources. ELS XVI, University of Maryland, USA, 19-25 March 2017.
    4. A. A. Shcherbakov, Rigorous simulation of the electromagnetic scattering by rough surfaces, ELS XVI, University of Maryland, USA, 19-25 March 2017.
    1. A. A. Ushkov, A. V. Tishchenko, A. A. Shcherbakov. Properties of isofrequency surfaces of 3D periodic dielectric composites with finite periods. AES Proceedings, Torremolinos, Spain, 26-28 July, 2016.
    2. A. A. Shcherbakov, A. V. Tishchenko. Efficient Fourier representation of complex crossed grating corrugations within the Generalized Source Method. AES Proceedings, Torremolinos, Spain, 26-28 July, 2016.
    1. A. A. Shcherbakov, A. V. Tishchenko, Green's function based approach for the light scattering calculation by inhomogeneous particles. ELS'XV, Leipzig, Germany, 22-26 June 2015.
    2. A. A. Shcherbakov, A. V. Tishchenko, Curvilinear coordinate Generalized Source Method for corrugated gratings with sharp edges. PIERS 2015 Book of abstracts, p. 365, PIERS, 6-9 July, Prague, Czech, 2015.
    1. A.A.Shcherbakov, A.V.Tishchenko. Fast and efficient modeling of metallic gratings diffraction with metric sources. EOSAM 2014, Berlin, Germany, 15-19 September 2014.
    2. A.A.Shcherbakov, A.V.Tishchenko. Dielectric tensor retrieval for gyrotropic 3D photonic crystals. OWTNM 2014, Nice, France, 22-29 June, 2014.
    1. A.A.Shcherbakov, A.V.Tishchenko. Fast modeling of electromagnetic scattering in 3D Fourier space. ELS’XIV, Lille, France, 17-21 June, 2013.
    2. A.A.Shcherbakov, A.V.Tishchenko. Generalized source method in curvilinear coordinates. Proccedings of OWTNM 2013 O-5.2, Workshop on Optical Waveguide Theory and Numerical Modeling, Enschede, Netherlands, 19-20 April, 2013.
    1. A.A.Shcherbakov, A.V.Tishchenko. Exact simulation of the diffraction of large, high-NA DOE-sections with O(NlogN) time and memory resort. // 8th EOS Topical Meeting on Diffractive Optics. 27 February - 1 March, Delft (2012).
    1. A.Shcherbakov, A.V.Tishchenko. Light scattering calculations in planar non-homogeneous dielectric media by means of the light diffraction calculation on gratings. // ELS’XIII Conference, Taormina, Italy, September 26-30. 2011.
    2. A.A.Shcherbakov, A.V.Tishchenko. Generalized source method for light scattering and diffraction calculations. // Proceedings of the Days on Diffraction’11 Conference, Saint-Petersburg, Russia, May 30 - June 3, p.89. 2011.
    1. A.Shcherbakov, A.Tishchenko, and S.Goreinov. Novel approach for modeling optical properties of systems containing large number of metal nanoparticles. // Proceedings of ELS’XII Conference, Helsinki, Finland, June 28 - July 2. pp.274-277 (2010).
    2. A.A.Shcherbakov, A.V.Tishchenko. Rigorous S-matrix based modeling of OLEDs. // Solid State and Organic Lightning, paper SOTuC3, Karlsruhe, Germany, June 21-24, (2010).
    3. A.A.Shcherbakov, A.V.Tishchenko. Fast and efficient diffraction modeling by the generalized source method. // Proceedings of 26th ACES conference 2010, Tampere, Finland, April 25-29, pp.160-165, (2010).
    4. A.Shcherbakov, A.Tishchenko. Influence of scattering layers on waveguide modes and external efficiency of OLED structures. // Proceedings of OWTNM Workshop 2010, Cambridge, England, April 9-10. p.82 (2010).
    1. A.V.Tishchenko, A.Shcherbakov. Rigorous modeling of 2D arbitrary shaped diffraction gratings with an analytical solution. // Workshop OWTNM 2009, Jena, Germany, April 17-18, (2009).
    2. A.Shcherbakov, A.V.Tishchenko. “Rigorous modeling of light scattering in dielectric structures by the generalized source method” International workshop Mie Theory 1908-2008, Halle, Germany, 15-17 September, pp.67-71 (2008).

    Other publications
    1. А. А. Щербаков, А. В. Тищенко, Модовый состав планарных структур органических светоизлучающих диодов // Ж. Радиоэлектроники, №6, с. 1-14 (2012).
    2. А. А. Щербаков, А. Ю. Васильев, А. В. Тищенко. Метод обобщенных источников в трехмерном сопряженном пространстве // Труды МФТИ, Т. 4, № 3, С. 187-191 (2012).
    3. А. А. Щербаков, Я. В. Лесничий, Морфология и оптические свойства тонких пленок однослойных углеродных нанотрубок, нанесенных методом воздушно-капельного распыления // Труды МФТИ, Т. 4, № 3, С. 109-113 (2012).
    4. А. А. Щербаков, Распределение кулоновского микрополя внутри ионного кластера // КСФ ФИАН, №1 (2008).

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