Sergei Belousov scite author profile

Normal incidence of a plane electromagnetic wave on a periodical structure can be simulated by the finite-difference time-domain method using a single unit cell with periodical boundary conditions imposed on its borders. For the oblique wave incidence, the boundary conditions would contain time delays and thus are difficult to implement in the time-domain method. We propose a method of oblique incidence simulation, based on an iterative algorithm. The accuracy of this method is demonstrated by comparing it with the layer Korringa-Kohn-Rostoker frequency-domain method for calculation of transmission spectra of a monolayered photonic crystal.

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Predictive modeling of laser and electron beam powder bed fusion additive manufacturing of metals at the mesoscale

Zakirov

Belousov

Bogdanova

et al. 2020

Additive Manufacturing

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FDTD subcell graphene model beyond the thin-film approximation

et al. 2016

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A subcell technique for calculation of optical properties of graphene with the finite-difference time-domain (FDTD) method is presented. The technique takes into account the surface conductivity of graphene which allows the correct calculation of its dispersive response for arbitrarily polarized incident waves interacting with the graphene.The developed technique is verified for a planar graphene sheet configuration against the exact analytical solution. Based on the same test case scenario, we also show that the subcell technique demonstrates a superior accuracy and numerical efficiency with respect to the widely used thin-film FDTD approach for modeling graphene. We further apply our technique to the simulations of a graphene metamaterial containing periodically spaced graphene strips (graphene strip-grating) and demonstrate good agreement with the available theoretical results.

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Using metallic photonic crystals as visible light sources

et al. 2012

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In this paper we study numerically and experimentally the possibility of using metallic photonic crystals (PCs) of different geometries (log-piles, direct and inverse opals) as visible light sources. It is found that by tuning geometrical parameters of a direct opal PC one can achieve substantial reduction of the emissivity in the infrared along with its increase in the visible. We take into account disorder of the PC elements in their sizes and positions, and get quantitative agreement between the numerical and experimental results. We analyze the influence of known temperature-resistant refractory host materials necessary for fixing the PC elements, and find that PC effects become completely destroyed at high temperatures due to the host absorption. Therefore, creating PCbased visible light sources requires that low-absorbing refractory materials for embedding medium be found.

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Technological features of the fabrication of the primary mirrors of telescopes

Semenov¹,

Abdulkadyrov²,

Belousov³

et al. 2013

J. Opt. Technol.

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This paper discusses the technology involved in automatically shaping the surfaces of primary telescope mirrors up to 4 m in diameter and with asphericity up to 1000 μm. It describes methods for monitoring the automatic grinding of surfaces by IR interferometry, automatic polishing and finishing of surfaces with wave-front correctors, and a method of simultaneously monitoring various designs of correctors to achieve and confirm the required parameters of an aspheric with the same surface. A description is given of the features of the fabricated auxiliary equipment (membranepneumatic actuator for unloading the mirror, load-bearing equipment, containers, and devices for cementing interface elements).• Energy concentration 80% on the axis of the system of two mirrors in a circle of confusion with diameter 0.15 00 after 207

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M2 secondary mirror manufacturing for VISTA project

Abdulkadyrov

Patrikeev

Belousov

et al. 2008

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Implementation of the iterative finite-difference time-domain technique for simulation of periodic structures at oblique incidence

Valuev

Deinega

Belousov

2014

Computer Physics Communications

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Hybrid transfer-matrix FDTD method for layered periodic structures

2009

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A hybrid transfer-matrix finite-difference time-domain (FDTD) method is proposed for modeling the optical properties of finite-width planar periodic structures. This method can also be applied for calculation of the photonic bands in infinite photonic crystals. We describe the procedure of evaluating the transfer-matrix elements by a special numerical FDTD simulation. The accuracy of the new method is tested by comparing computed transmission spectra of a 32-layered photonic crystal composed of spherical or ellipsoidal scatterers with the results of direct FDTD and layer-multiple-scattering calculations.

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Sergei Belousov

Iterative technique for analysis of periodic structures at oblique incidence in the finite-difference time-domain method

Predictive modeling of laser and electron beam powder bed fusion additive manufacturing of metals at the mesoscale

FDTD subcell graphene model beyond the thin-film approximation

Using metallic photonic crystals as visible light sources

Technological features of the fabrication of the primary mirrors of telescopes

M2 secondary mirror manufacturing for VISTA project

Implementation of the iterative finite-difference time-domain technique for simulation of periodic structures at oblique incidence

Hybrid transfer-matrix FDTD method for layered periodic structures

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