F. Boden1, T. Kirmse1, A. Yu. Poroikov2, B. S. Rinkevichyus2, N. M. Skornyakova2, I. A. Shashkova2 1Deutsches Zentrum f¨ur Luft- und Raumfahrt e.V. (DLR), Bunsenstr. 10, Goettingen, 37073 Germany 2National Research University MEI, ul. Krasnokazarmennaya 14, Moscow, 111250 Russia
Keywords: image pattern correlation technique, flight measurements, dynamic deformations
This paper presents the results of theoretical and laboratory experimental studies of the image pattern correlation technique. It is shown that the obtained results depend on the observation angle. The possibility of applying the correlation method to flight tests is considered.
N. V. Semidetnov
St. Petersburg State Marine Technical University, ul. Lotsmanskaya 3, St. Petersburg, 190008 Russia
Keywords: particle sizing, light scattering, Mie theory, Debye-series expansion, geometrical optics, diffraction, edge wave
The effects of local interaction of light with a particle used for diagnostics of the dispersed phase of flows are usually well described by the laws of geometrical optics. For forward scattering, geometrical optics is complemented by Fraunhofer diffraction by an opaque disk. Accurate calculations using Mie theory reveal an additional intensity of the radiation scattered in a direction close to the the direction of illumination. This additional contribution is attributed to the edge wave. The components of forward scattered light, namely, diffraction, reflection, and edge wave are studies in order to refine the contribution to the scattered intensity and locality of the interaction with the particle. It is shown that localization of the interaction with the particle occurs for all of these components. The distributions of the intensity of the individual components in forward scattering are obtained.
a:2:{s:4:"TEXT";s:118:"M. A. Bol’shukhin1, I. A. Znamenskaya2, D. N. Sveshnikov1, V. I. Fomichev1";s:4:"TYPE";s:4:"html";} 1Afrikantov Experimental Design Bureau of Machine Building, pr. Burnakovskii 15, Nizhny Novgorod, 603074 Russia 2Lomonosov Moscow State University, Leninskie Gory 2, Moscow, 119991 Russia
Keywords: thermography, turbulent mixing, temperature fluctuations, spectrum
The possibilities of using thermography for quantitative studies of the frequency characteristics of the nonisothermal water pulsations near the vessel walls transparent to infrared radiation are analyzed. Thermographic studies of the temperature dynamics in the contact zone of a nonisothermal liquid with the wall were performed using simple models. Frequencies of temperature fluctuations at the inner surface of the vessel through the wall transparent to infrared radiation were measured using a thermal imager with accurate focusing of the lens. Spectral curves of the fluctuations were constructed with the use of a Fourier transform. It is shown that Kolmogorov spectra (–5/3 law) are present in the nonisothermal flow in a T–junction channel, allowing the process to be characterized as developed turbulence of the water flow in the region of the boundary layer adjacent to the window.
T. V. Mironova
Lebedev Physical Institute, Russian Academy of Sciences, pr. Leninskii 53, Moscow, 119991 Russia
Keywords: digital image correlation, subpixel accuracy, measurement error
The statistical error of correlation measurement of the shift is estimated using the binary image model. The influence of image properties on the accuracy of subpixel measurements of the position of the maximum of the correlation peak is studied. Recommendations for the choice of parameters of the image and correlation algorithm are given.
I. L. Raskovskaya
National Research University MEI, ul. Krasnokazarmennaya 14, Moscow, 111250 Russia
Keywords: optically inhomogeneous medium, refraction, laser beam, geometrical optics methods, wave methods, inverse problems of refraction
This paper deals with the refractometry of optically inhomogeneous media under conditions of significant refraction of probing beams due to substantial gradients of the refractive index and the length of the test medium. For these conditions, wave and beam refraction models of laser beams in the presence of caustics are developed. The advantages of using structured beams to record caustics for the purpose of quantitative diagnostics of inhomogeneities of the refractive index are discussed. Based on the developed models, possible methods are proposed to solve the inverse refraction problem and reconstruct the refractive index values in inhomogeneity cross-sections.
V. A. Grechikhin, D. A. Titov
National Research University MEI, ul. Krasnokazarmennaya 14, Moscow, 111250 Russia
Keywords: laser Doppler vibrometer, quasioptimal nonlinear filtering algorithm, relative vibration displacement amplitude, mathematical simulation method
The problem of quasioptimal nonlinear filtering of heterodyne laser Doppler vibrometer signals is solved in the Gaussian approximation of a posteriori probability density of the vector of estimated parameters. A filtering algorithm is synthesized for the case of monoharmonic vibrations with a fluctuating vibration displacement amplitude model in the form of a normal Markov random process. Mathematical simulation is used to show the efficiency of the algorithm of tracking the unknown parameters of the laser Doppler vibrometer signal in the presence of additive monitoring noise and the deterministic trend of the information parameter.
K. Lee1, M. Kinnunen2, A. E. Lugovtsov1, A. V. Priezzhev1, A. V. Karmenyan3 1Lomonosov Moscow State University, Leninskie Gory 1, Moscow, 119991 Russia 2University of Oulu, P.O. Box 4500, FIN-90014, Oulu, Finland, ErkkiKoiso-Kanttilankatu, 3 3National Young-Ming University, 000247-5, Taipei, Taiwan, No. 155, Sec. 2, Linong Street 112-21
Keywords: erythrocyte, ektacytometry, optical tweezers, cell deformation, flow, shear stress, aggregation
Optical study of the dynamics and deformation of erythrocytes in flow was performed by two methods. Cells were trapped and manipulated with laser tweezers. Laser tweezers allow observing the deformation of a single cell or a cell aggregate under various experimental conditions, such as at rest or in flow, and also studying the aggregation of erythrocytes, which is an important process that affects blood rheology. Another method — ektacytometry — is based on obtaining information about the microrheological parameters of erythrocytes from diffraction patterns of laser radiation on a diluted suspension of cells in a flow and at rest. This method makes it possible to determine the average shear strain of a whole ensemble that includes many thousands of particles from changes in the diffraction pattern depending on the shear stress applied to the cells. The forces of interaction between two erythrocytes in an aggregate are measured and the cell deformation parameters are determined. The data on erythrocyte deformation obtained by the two methods agree well with each other.
Yu. B. Bazarov1,2, E. E. Meshkov2 1Russian Federal Nuclear Center - All-Russian Research Institute of Experimental Physics, pr. Mira 37, Sarov, 607190 Russia 2Sarov State Physics and Technical Institute, ul. Dukhova 6, Sarov, 607186 Russia
Keywords: optical diagram, overhead projection, microparticles, resolving power
A method for videotaping micro-objects by means of overhead projection is described. This method allows recording microparticles, including rapidly moving ones, whose size is no less than 1 μm.
I. N. Pavlov, A. V. Tolkachev
National Research University Moscow Power Engineering Institute, ul. Krasnokazarmennaya 17, Moscow, 111250 Russia
Keywords: frustrated total internal reflection, visualization, crystallization
This paper presents the results of processing of the experimental data obtained in a study of cooling and crystallization of a thin boundary layer of distilled water by frustrated total internal reflection of a wide collimated laser beam in order to determine the dependence of the temperature of this layer on time.
V. P. Bessmeltsev, E. D. Bulushev
Institute of Automation and Electrometry, Siberian Branch, Russian Academy of Sciences, pr. Akademika Kopytuga 1, Novosibirsk, 630090 Russia
Keywords: laser micromachining, design of experiments, mathematical modeling, quality inspection, artificial neural networks
The tendency to miniaturization of mechanical, electronic, and optical components imposes more stringent requirements to technologies of two-dimensional and three-dimensional fabrication, including laser micromachining. The high efficiency and simultaneous rigorous compliance with technical conditions in terms of accuracy and quality of the processed surface is reached only with the use of certain machining regimes, which are called optimal regimes. Determination of such regimes by methods of mathematical modeling is a difficult task; therefore, experimental methods based on statistical algorithms of data processing are being developed now. Specific features of application of these algorithms are considered.