Your search keyword '"V. V. Markin"' showing total 16 results

1. Recording of the multiplexed Bragg diffraction gratings using the phase mask for the near-eye display

Author

Sergey B. Odinokov, V. V. Markin, M. V. Shishova, A. Y. Zherdev, and Dmitrii S. Lushnikov

Subjects

Materials science, Optics, business.industry, Phase mask, Near eye display, Bragg's law, business, Multiplexing

Published

2021

2. Development and research of a waveguide for augmented reality systems with diffractive relief-phase gratings

Author

A. B. Solomashenko, Dmitrii S. Lushnikov, A. Y. Zherdev, Mariya Shishova, V. V. Markin, and Sergey B. Odinokov

Subjects

Materials science, Optics, business.industry, Phase (waves), Physics::Optics, Volume hologram, Waveguide (acoustics), Monochrome, Field of view, Diffraction efficiency, business, Diffraction grating, Digital holography

Abstract

The article describes the variants for using the relief phase diffraction gratings for a waveguide used as an optical input/output element for images in augmented reality systems. A characteristic feature of diffraction gratings with a surface relief, which, in this case, were recorded in the photoresist layer, is a relatively small relief depth (of the order of several tenths of a micrometer), while the diffraction efficiency of such gratings is quite high (up to 30%). The paper considers an implementation option for a waveguide with a common angular field of view close to 60°. The article presents the waveguide options used to output both monochrome images and display full-color images.

Published

2020

3. Security elements used in color three-dimensional security holograms, methods for their production and control

Author

Dmitrii S. Lushnikov, Andrey Smirnov, Alexandet Y. Zherdev, V. V. Markin, and Sergey B. Odinokov

Subjects

Computer science, law, Feature (computer vision), Computer graphics (images), Control (management), Holography, Volume hologram, Rainbow, Production (computer science), Digital holography, ComputingMethodologies_COMPUTERGRAPHICS, law.invention, Visualization

Abstract

The article describes the features of the security elements used in color three-dimensional security holograms. Unlike classical security holograms - "rainbow" relief - phase holograms, color three-dimensional security holograms have spectral and angular selectivity. This feature allows them to create new security elements or use the properties of already known elements as a new. The article describes the schemes and devices for creating such security elements, as well as devices for their visualization and control. Examples of typical security elements used in color three-dimensional security holograms are presented. This work was supported by the Russian Science Foundation (Project No. 18-79-00304).

Published

2019

4. Investigation of structured head diffraction gratings for linear optical encoder

Author

D. S. Lushnikov, M. S. Kovalev, N. G. Stsepuro, Sergey B. Odinokov, V. V. Markin, A. Y. Zherdev, and M. V. Shishova

Subjects

Rotary encoder, Physics, Linear encoder, Optics, business.industry, Phase (waves), Physics::Optics, Grating, Interference (wave propagation), business, Encoder, Diffraction grating, Signal

Abstract

Optical position encoders working according to the interference method consists of a measurement scale and a measuring head moving along each other. The scale has a reflection diffraction grating on its surface and the measuring head has a transmission diffraction grating with same period inside. Laser light passing and diffracting through these two gratings creates an interference signal on an optical detector. Decoding of the interference signal phase allows to determinate current position. Known optical position encoders use complex optical schemes and some phase optical elements to form several quadrature signals with different phase for higher encoder accuracy. Previously we researched such kind of schemes [1, 2]. In this paper we propose to use a common optical scheme without phase elements but with a complex structured measuring head grating for this purpose to simplify an optical scheme and alignment requirements. The optical scheme of position encoder based on measuring head grating with specific structure is research and described in this paper.

Published

2018

5. Investigation of the effect of the spectral and angular selectivities of three-dimensional color security holographic stereograms on the process of the reconstruction of 3D images

Author

Sergey B. Odinokov, Andrey Smirnov, A. Y. Zherdev, V. V. Markin, and D. S. Lushnikov

Subjects

Physics, Optics, business.industry, law, Holography, Vertical plane, Observer (special relativity), business, Horizontal plane, law.invention

Abstract

The article presents a two-stage scheme for obtaining volume color security holographic stereograms. These holograms are digital holograms. The H1 - hologram is recorded at the first stage. The final holographic stereogram is recorded at the second stage. The image of the H1-hologram is reconstructed in the plane of pupils of the observer's eyes, when 3-D images are reconstructed from holographic stereograms. The quality of the 3-D images reconstructed from hologram stereograms directly depends on the degree of blurring of the H1 image - the hologram. The article shows mathematical calculations describing the effects of the spectral and angular selectivities of a three-dimensional color security holographic stereogram on the process of reconstructing 3-D images (the degree of blurring of the H1 image-hologram). It is shown, that the quality of security elements, such as the "flip-flop effect", for this type of hologram, has a more pronounced effect in the vertical plane than in the horizontal plane. This is due to the large influence of the spectral and angular selectivities in the vertical plane, than in the horizontal one when reconstructing the images. Photos of images, reconstructed from a three-dimensional color security holographic stereogram, are also presented in the article. These photos confirm the correctness of the presented calculations.

Published

2018

6. Optical position encoder based on structured head diffraction grating

Author

M. S. Kovalev, Sergey B. Odinokov, V. V. Markin, A. Y. Zherdev, D. S. Lushnikov, M. V. Shishova, and N. G. Stsepuro

Subjects

Physics, 0209 industrial biotechnology, business.industry, Phase (waves), Physics::Optics, 02 engineering and technology, Grating, Interference (wave propagation), Signal, Linear encoder, 020303 mechanical engineering & transports, 020901 industrial engineering & automation, Optics, 0203 mechanical engineering, Transmission (telecommunications), business, Encoder, Diffraction grating

Abstract

Optical position encoders working according to the interference method consists of a measurement scale and a measuring head moving along each other. The scale has a reflection diffraction grating on its surface and the measuring head has a transmission diffraction grating with same period inside. Laser light passing and diffracting through these two gratings creates an interference signal on an optical detector. Decoding of the interference signal phase allows to determinate current position. Known optical position encoders use complex optical schemes and some phase optical elements to form several quadrature signals with different phase for higher encoder accuracy. Previously we researched such kind of schemes [1, 2]. In this paper we propose to use a common optical scheme without phase elements but with a complex structured measuring head grating for this purpose to simplify an optical scheme and alignment requirements. The optical scheme of position encoder based on measuring head grating with specific structure is research and described in this paper.

Published

2018

7. The small-sized ultraprecision sensor for measuring linear displacements

Author

V. V. Markin, A. Y. Zherdev, Sergey B. Odinokov, M. V. Shishova, O. A. Gurylev, and D. S. Lushnikov

Subjects

Diffraction, Materials science, business.industry, Detector, Phase (waves), Physics::Optics, 02 engineering and technology, 021001 nanoscience & nanotechnology, Diffraction efficiency, 01 natural sciences, Signal, 010309 optics, Linear encoder, Optics, Interference (communication), 0103 physical sciences, 0210 nano-technology, business, Diffraction grating

Abstract

The article describes a new optical scheme of noncontact sensor for measuring linear displacement - linear encoder. This sensor is an optical device in which the measurement of displacement is performed by analyzing the optical signal, which pass through two diffraction gratings, one of which is moved relative to the other. The optical signal is obtained by the diffraction of light in these diffraction gratings and subsequent interference of diffracted beams. Often this type of sensors are multi-channel devices with symmetrically positioned of detectors. This scheme is proposed to use a multisection phase mask that allows to make a small-sized sensor. Sections of this multi-section phase mask are the optical windows and they made the final interference signals to be shifted relative to each other in phase. The number of sections in the multi-section phase mask can be varied. Estimated sufficient number of sections is four or more.

Published

2017

8. The schemes and methods for producing of the visual security features used in the color hologram stereography

Author

D. S. Lushnikov, V. V. Markin, A. Y. Zherdev, Sergey B. Odinokov, and Andrey Smirnov

Subjects

law, Computer science, business.industry, Computer graphics (images), ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Holography, Volume hologram, Computer vision, Artificial intelligence, business, Digital holography, law.invention

Abstract

Visual security elements used in color holographic stereograms - three-dimensional colored security holograms - and methods their production is describes in this article. These visual security elements include color micro text, color-hidden image, the horizontal and vertical flip - flop effects by change color and image. The article also presents variants of optical systems that allow record the visual security elements as part of the holographic stereograms. The methods for solving of the optical problems arising in the recording visual security elements are presented. Also noted perception features of visual security elements for verification of security holograms by using these elements. The work was partially funded under the Agreement with the RF Ministry of Education and Science № 14.577.21.0197, grant RFMEFI57715X0197.

Published

2017

9. Optical position encoder based on four-section diffraction grating

Author

D. S. Lushnikov, V. V. Markin, Sergey B. Odinokov, A. Y. Zherdev, M. V. Shishova, and O. A. Gurylev

Subjects

Physics, Distributed feedback laser, business.industry, 020208 electrical & electronic engineering, Detector, Physics::Optics, 02 engineering and technology, Grating, 01 natural sciences, law.invention, 010309 optics, Linear encoder, Optics, law, 0103 physical sciences, Blazed grating, 0202 electrical engineering, electronic engineering, information engineering, business, Diffraction grating, Encoder, Decoding methods

Abstract

Optical position encoder consists of movable coding grating and fixed analyzing grating. Light passing and diffracting through these two gratings creates interference signal on optical detector. Decoding of interference signal phase allows to determinate current position. Known optical position encoders use several accurate adjusted optical channels and detectors to gather several signals with different phase for higher encoder accuracy. We propose to use one optical channel with several-section analyzing diffraction grating for this purpose to simplify optical scheme and adjusting requirements. Optical scheme of position encoder based on four-section analyzing diffraction grating is developed and described in this paper.

Published

2017

10. Experimental study of the method of recording color volume security holograms on different photosensitive materials on the base of the diffuser with a narrow indicatrix of laser radiation

Author

V. V. Markin, D. S. Lushnikov, Sergey B. Odinokov, Andrey Smirnov, and A. Y. Zherdev

Subjects

Materials science, business.industry, Scattering, Holography, Base (geometry), Volume hologram, Laser, law.invention, Visualization, Optics, law, business, Diffuser (optics), Digital holography

Abstract

The paper presents the practical results of recording holographic stereograms. Advantages and disadvantages of methods for producing holographic stereograms using diffusers with different indicatrices scattering of the radiation in the object branch and without the use of a diffuser are presented. A new security element - multi-color microtext, is presented. Shows how to use multi-color microtext as a hidden security element. The method of multi-color microtext visualization is shown. The work was partially funded under the Agreement with the RF Ministry of Education and Science no. 14.577.21.0197, grant RFMEFI57715X0197.

Published

2016

11. Optimization of holopixel size and perspectives number in holographic stereogram

Author

D. S. Lushnikov, Sergey B. Odinokov, A. Y. Zherdev, and V. V. Markin

Subjects

Point spread function, Physics, Observer (quantum physics), business.industry, Plane (geometry), Holographic optical element, Holography, Signal, Expression (mathematics), law.invention, law, Computer vision, Artificial intelligence, business, Digital holography

Abstract

The mathematical model of signal conversion carried out by holographic optical element (HOE) in holographic stereogram (HS) is presented. Expression for the point spread function (PSF) of HOE in the plane of an observer is obtain as well as the expression for the optimal number of perspectives and plans of HS. Relationship between the observation distance, the size and number of perspectives in HS HOE are considerate. Constraints and future prospects of art and security holography development are disclose. The approach how to optimize HS parameters (such as holopixel size and perspectives number) for current 3D image and HS application is proposed.

Published

2013

12. The optical scheme for recording of miniature light guide holographic indicator

Author

Sergey B. Odinokov, A. B. Solomashenko, Alexey S. Kuznetsov, Ekaterina A. Drozdova, and V. V. Markin

Subjects

Materials science, Holographic grating, business.industry, Holographic optical element, Holography, Grating, Holographic interferometry, law.invention, Optics, law, Holographic display, Optoelectronics, Digital holographic microscopy, business, Diffraction grating

Abstract

The holographic optical elements (HOE) for holographic indicators and methods of their production on the photosensitive materials are described. A distinctive feature of this optical scheme is the zone record of diffraction gratings and HOE, i.e., grating is divided into separate fragments that stitching at the recording process with a high-precision motion system of the plate.

Published

2013

13. Holographic memory based on computer generated Fourier-holograms

Author

Aleksander Betin, Evgeny Zlokazov, Aleksander Zherdev, S N Starikov, Rostislav S. Starikov, Sergey B. Odinokov, Nina M. Verenikina, Nikolay N. Evtikhiev, Dmitriy Lushnikov, V. I. Bobrinev, and V. V. Markin

Subjects

Spatial light modulator, business.industry, Computer science, Holography, Holographic interferometry, law.invention, symbols.namesake, Optics, Fourier transform, law, Electronic speckle pattern interferometry, Computer graphics (images), Computer data storage, Holographic display, symbols, Digital holographic microscopy, business

Abstract

Classic holographic memory systems use two-beam approach based on fixation of interference pattern between object and reference coherent beams on holographic recording medium. The size of single pattern is about several micrometers. High precision optical set up is required to form such a microhologram, that is the reason of excessive price for holographic recording devices. Methods of computer holographic synthesis allow to calculate holographic patterns numerically as 2D images. These images can be realized with the use of spatial light modulator, then reduced in optical projection system and exposed on holographic medium. In this paper we represent the research of holographic memory system based on computer generated Fourier holograms projection.

Published

2013

14. Research of properties of the holographic screen

Author

V. V. Markin, D. S. Lushnikov, and Sergey B. Odinokov

Subjects

Physics, Liquid-crystal display, business.industry, Color image, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Holography, Grating, Stereo display, law.invention, Holographic screen, Optics, Projector, law, business, Diffraction grating, ComputingMethodologies_COMPUTERGRAPHICS

Abstract

Holographic screen (HS) is designed for using in 3D displays. HS is produced as a hologram of converging light wave and it presents an interference pattern of the reference and the object beams as a diffraction grating with variable pitch registered in the recording medium. While a color image is projected on such screen the problem of perception of the undistorted color image by the observer is appeared (due to the inherent angular dispersion of a grating with different values for different wavelengths) because the observation zones are displaced in space for each spectrum section. The problem is solved due to recording the HS by the object beam from the set of point sources, i.e. recording lengthy in the appropriate direction diffuser. With this type of HS, the observation zones, providing an undistorted perception of full-color images, are located in the imposition of lengthy images of projectors' pupils corresponding to different spectral components of projectors' radiation beams. To form an image, different projectors can be used in the display: slide projectors, video projectors based on LCD- or DMD-panels, etc. Three-dimensional images of both static and dynamic scenes can be viewed as video films at the appropriate information flows synchronization which are received by the projector from external sources.

Published

2011

15. Research of a method and optical system for recording multiplex holograms in a system of holographic memory

Author

D. S. Lushnikov, Anton S. Goncharov, Nina M. Verenikina, A. I. Nikolaev, Alexander Yurievich Pavlov, Aleksey S. Kuznecov, Sergey B. Odinokov, Olga V. Andreeva, Evgeny A. Usovich, and V. V. Markin

Subjects

Computer science, business.industry, Holography, Multiplexing, System model, law.invention, Optics, law, Reference beam, Computer data storage, Holographic memory, Multiplex, business, Digital recording

Abstract

The new modified holograms multiplexing method using normal to holographic recording media reference beam incidence and off-normal signal beams incidence is offered for application in holographic memory system having high information capacity and high data rate. Signal beams are located around reference beam concentrically. In this case quantity of multiplex holograms in the same area of recording media is equal to quantity of signal beams. Experimental holographic memory system model applying offered method is tested. Possibility of multichannel optical head application for data recording and retrieving is shown. Offered multiplexing method advantages consist in following: obviating of the necessity of recording media rotation; crosstalk noise free restored data page images; possibility of thin holographic recording media application.

Published

2009

16. Composite holographic screens for the stereoscopic or multiview color image display

Author

V. V. Markin, Nikolai A. Kostrov, Alexey L. Oleinikov, Leonid Ya. Melnikov, Jung-Young Son, Vladimir I. Bobrinev, Anatoly A. Axelrod, Oleg E. Radominov, Gennady A. Koshevarov, and Nickolay N. Evtikhiev

Subjects

Physics, Color image, business.industry, Holography, Stereoscopy, law.invention, Holographic screen, Display size, Optics, Projector, law, Reference beam, Light beam, business

Abstract

The transmission type holographic screen is a special kind of scatterer, which is used to concentrate the light from the projected image into small size spot (viewing zone). As a result, different images can be delivered to each observer's eyes and it is possible to display the stereoscopic images. The most serious problem related with the holographic screen is its high dispersion and aberrations which cause the viewing zone distortions and poor color reproduction in the displayed image, especially in the screen corners. Both of the above mentioned drawbacks become more prominent when the screen size becomes larger. To compensate the screen dispersion, a diffuser in the form of a long narrow stripe directed to the reference beam axis is used for an object. The length and position of the diffuser are calculated to make the reconstructed images of it for all wavelengths of the white light projector to be superposed in the viewing zone. To solve the aberrations problem, a big size screen was composed by mosaicking many sub-screens which were recorded individually in the specially optimized setup. For example, when the sub- screen is recorded for the edge part of the screen, the diffuser was tilted different direction to provide proper superposition of the reconstructed diffuser images. For each sub-screen, the diffuser is tilted such that it is in nearly the same plane with the reference beam axis. The sub-screens are recorded on the holographic photoplates PFG-01 (Russia) with an optical set-up optimized for each sub-screen by adjusting the diffuser position and its tilt angle. All necessary parameters are calculated by considering the light beam path for different wavelengths in the visible spectrum. The size of each sub-screen is 40 X 30 cm2. Eight sub- screens are mosaicked to obtain a composite holographic screen with size 80 X 120 cm2. The screens have been used to display the full color stereoscopic images from slide projectors. The distances between the projector and the composite screen, and the screen and a viewer are set to 4 m and 3.5 m, respectively.© (1999) COPYRIGHT SPIE--The International Society for Optical Engineering. Downloading of the abstract is permitted for personal use only.

Published

1999