Computer simulation of optical radiation attenuation in dispersed system «coal dust-air»

Development of the technologies simulating optical processes in an arbitrary dispersed medium is one of the important directions in the field of optical instrumentation and can provide computer simulation of the processes instead of using expensive equipment in physical experiments. The goal of the study is simulation of scattering of optical radiation by aerosol media using the finite element method to show a practical significance of the results of virtual experiments. We used the following initial conditions of the model: radius of a spherical particle of distilled water is 1 μm, wavelength of the incident optical radiation is 0.6328 μm, air is a medium surrounding the particle. An algorithm for implementation of the model by the finite element method is proposed. A subprogram has been developed which automates a virtual experiment for a group of particles to form their random arrangement in the model and possibility of changing their geometric shape and size within predetermined intervals. Model dependences of the radiation intensity on the scattering angle for single particle and groups of particles are presented. Simulation of the light transmission through a dispersed medium provides development of a given photosensor design and determination of the minimum number of photodetectors when measuring the parameters of the medium under study via analysis of the indicatrix of scattering by a group of particles.

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Computer simulation of perturbation of a shock wave in nitrogen by optical radiation

Technical Physics ◽

10.1134/s1063784208040038 ◽

2008 ◽

Vol 53 (4) ◽

pp. 408-414

Author(s):

T. G. Elizarova ◽

V. A. Trofimov ◽

I. A. Shirokov

Keyword(s):

Shock Wave ◽

Computer Simulation ◽

Optical Radiation

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COMPUTER SIMULATION OF OPTICAL-ELECTRONIC CHARACTERISTICS OF GASES AND COAL DUST GAS CONCENTRATION FOR CONTROL OF EMER-GENCY AND CREDITS SITUATIONS IN COAL MINES

Vestnik of Kuzbass State Technical University ◽

10.26730/1999-4125-2018-5-5-17 ◽

2019 ◽

Vol 129 (5) ◽

pp. 5-17

Author(s):

Sergey A. Lisakov ◽

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Anton I. Sidorenko ◽

Evgeny V. Sipin ◽

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...

Keyword(s):

Computer Simulation ◽

Coal Dust ◽

Coal Mines ◽

Gas Concentration

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Physical processes in coal dust investigation on reduction factor of optical radiation

2009 International Conference and Seminar on Micro/Nanotechnologies and Electron Devices ◽

10.1109/edm.2009.5173996 ◽

2009 ◽

Author(s):

Elena V. Baryshnikova ◽

Irina U. Uskova ◽

Ekaterina V. Berestova ◽

Eugeniy S. Povernov ◽

Eugene V. Sypin

Keyword(s):

Optical Radiation ◽

Coal Dust ◽

Reduction Factor ◽

Physical Processes

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Characterization of Modulated Structure Through Structure Images and their Computer Simulation

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100179105 ◽

1990 ◽

Vol 48 (1) ◽

pp. 70-71

Author(s):

Kiyomichi Nakai ◽

Yusuke Isobe ◽

Chiken Kinoshita ◽

Kazutoshi Shinohara

Keyword(s):

Computer Simulation ◽

High Resolution ◽

Spherical Aberration ◽

High Resolution Electron Microscopy ◽

Basic Mechanism ◽

Objective Lens ◽

Specimen Thickness ◽

Transmitted Beam ◽

Modulated Structure ◽

Resolution Electron

Induced spinodal decomposition under electron irradiation in a Ni-Au alloy has been investigated with respect to its basic mechanism and confirmed to be caused by the relaxation of coherent strain associated with modulated structure. Modulation of white-dots on structure images of modulated structure due to high-resolution electron microscopy is reduced with irradiation. In this paper the atom arrangement of the modulated structure is confirmed with computer simulation on the structure images, and the relaxation of the coherent strain is concluded to be due to the reduction of phase-modulation.Structure images of three-dimensional modulated structure along <100> were taken with the JEM-4000EX high-resolution electron microscope at the HVEM Laboratory, Kyushu University. The transmitted beam and four 200 reflections with their satellites from the modulated structure in an fee Ni-30.0at%Au alloy under illumination of 400keV electrons were used for the structure images under a condition of the spherical aberration constant of the objective lens, Cs = 1mm, the divergence of the beam, α = 3 × 10-4 rad, underfocus, Δf ≃ -50nm and specimen thickness, t ≃ 15nm. The CIHRTEM code was used for the simulation of the structure image.

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