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Yu. A. Eremin, V. V. Lopushenko, “Comparative Analysis of the Influence of Surface Quantum Effects on Optical Characteristics of Alkali and Noble Metallic Nanoparticles”, Comput. Math. and Math. Phys., 64:7 (2024), 1587
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Yu. A. Eremin, V. V. Lopushenko, “Influence of Surface Quantum Effects on the Near Fields of a Core-Shell Particle Deposited on a Substrate”, Lobachevskii J Math, 45:10 (2024), 4730
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Ю. А. Еремин, В. В. Лопушенко, “Анализ влияния квантовых эффектов на оптические характеристики плазмонных наночастиц методом дискретных источников”, Ж. вычисл. матем. и матем. физ., 63:11 (2023), 1911–1921
; Yu. A. Eremin, V. V. Lopushenko, “Analysis of the influence of quantum effects on optical characteristics of plasmonic nanoparticles based on the discrete sources method”, Comput. Math. Math. Phys., 63:11 (2023), 2139–2149
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Yu. A. Eremin, “Mathematical Models of Diffraction Problems Based on the Discrete Source Method”, J. Commun. Technol. Electron., 68:S3 (2023), S321
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Ю. А. Еремин, В. В. Лопушенко, “Численный анализ функциональных свойств 3D-резонатора плазмонного нанолазера с учетом нелокальности и наличия призмы методом дискретных источников”, Компьютерная оптика, 45:3 (2021), 331–339
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Belov A.A., Dombrovskaya Zh.O., Bogolyubov A.N., “A Bicompact Scheme and Spectral Decomposition Method For Difference Solution of Maxwell'S Equations in Layered Media”, Comput. Math. Appl., 96 (2021), 178–187
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Ю. А. Еремин, А. Г. Свешников, “Квазиклассические модели квантовой наноплазмоники на основе метода дискретных источников (Обзор)”, Ж. вычисл. матем. и матем. физ., 61:4 (2021), 580–607
; Yu. A. Eremin, A. G. Sveshnikov, “Semi-classical models of quantum nanoplasmonics based on the discrete source method (Review)”, Comput. Math. Math. Phys., 61:4 (2021), 564–590
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Bertrand M., Devilez A., Hugonin J.-P., Lalanne Ph., Vynck K., “Global Polarizability Matrix Method For Efficient Modeling of Light Scattering By Dense Ensembles of Non-Spherical Particles in Stratified Media”, J. Opt. Soc. Am. A-Opt. Image Sci. Vis., 37:1 (2020), 70–83
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Ю. А. Еремин, А. Г. Свешников, “Математическая модель процессов флюоресценции с учетом квантового эффекта нелокального экранирования”, Матем. моделирование, 31:5 (2019), 85–102
; Yu. A. Eremin, A. G. Sveshnikov, “Mathematical model of fluorescence processes accounting for the quantum effect of non-local screening”, Math. Models Comput. Simul., 11:6 (2019), 1041–1051
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Eremin Yu., Doicu A., Wriedt T., “The Numerical Scheme of the Discrete Sources Method to Analyze 3D Plasmonic Nanostructures Accounting For the Non-Local Effect”, J. Comput. Phys., 388 (2019), 357–370
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Lopushenko I.V., Wriedt T., Zavestovskaya I.N., “Effect of Spatial Dispersion on Plasmon Resonance in Silver Nanoparticles”, Bull. Lebedev Phys. Inst., 46:12 (2019), 400–404
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Ю. А. Еремин, А. Г. Свешников, “Метод дискретных источников для исследования влияния нелокальности на характеристики резонаторов плазмонного нанолазера”, Ж. вычисл. матем. и матем. физ., 59:12 (2019), 2175–2184
; Yu. A. Eremin, A. G. Sveshnikov, “Discrete source method for the study of influence nonlocality on characteristics of the plasmonic nanolaser resonators”, Comput. Math. Math. Phys., 59:12 (2019), 2164–2172
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Ю. А. Еремин, А. Г. Свешников, “Математическая модель учета эффекта нелокальности плазмонных структур на основе метода дискретных источников”, Ж. вычисл. матем. и матем. физ., 58:4 (2018), 586–594
; Yu. A. Eremin, A. G. Sveshnikov, “Mathematical model taking into account nonlocal effects of plasmonic structures on the basis of the discrete source method”, Comput. Math. Math. Phys., 58:4 (2018), 572–580
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Eremin Yu.A., Sveshnikov A.G., “Analysis of the Influence of Longitudinal Fields on the Scattering Properties of Nonspherical Plasmonic Nanoparticle Clusters Via the Discrete-Sources Method”, Mosc. Univ. Phys. Bull., 73:5 (2018), 475–481
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Eremin Yu., Doicu A., Wriedt T., “Discrete Sources Method For Modeling the Nonlocal Optical Response of a Nonspherical Particle Dimer”, J. Quant. Spectrosc. Radiat. Transf., 217 (2018), 35–44
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Eremin Yu.A., Sveshnikov A.G., “Analysis Method For the Scattering Properties of Plasmonic Particles on a Substrate Accounting For Nonlocal Effects”, Dokl. Math., 96:3 (2017), 641–645
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Egel A., Eremin Yu., Wriedt T., Theobald D., Lemmer U., Gomard G., “Extending the Applicability of the T-Matrix Method to Light Scattering By Flat Particles on a Substrate Via Truncation of Sommerfeld Integrals”, J. Quant. Spectrosc. Radiat. Transf., 202 (2017), 279–285
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Yu. A. Eremin, I. V. Lopushenko, “Account for the nonlocal effect in light scattering by plasmonic nanoparticles in the hybrid scheme of the discrete sources method”, MoscowUniv.Comput.Math.Cybern., 41:4 (2017), 165
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Н. В. Гришина, Ю. А. Еремин, А. Г. Свешников, “Метод дискретных источников для анализа усиления флюоресценции в присутствии плазмонных структур”, Ж. вычисл. матем. и матем. физ., 56:1 (2016), 133–141
; N. V. Grishina, Yu. A. Eremin, A. G. Sveshnikov, “Discrete source method for analysis of fluorescence enhancement in the presence of plasmonic structures”, Comput. Math. Math. Phys., 56:1 (2016), 140–147
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Prokopyeva E., Kaspar P., Tomanek P., Grmela L., “Optical Properties of Metal Nanoparticles Used in Biosensors”, Optics and Measurement Conference 2014, Proceedings of Spie, 9442, eds. Kovacicinova J., Vit T., Spie-Int Soc Optical Engineering, 2015, 944217