SU1099310A1 - Method of forming image - Google Patents

Abstract

THE METHOD OF FORMATION OF IMAGES, which consists in recording a hologram in colliding beams and reconstructing an image of an object, characterized in that, in order to improve the criteria of visual efficiency, illuminate the hologram with a variable intensity beam and orient a two-dimensional projection of the reconstructed image with a focused image of the same object deposited on the substrate. 2. A method according to claim 1, characterized in that the focused image of the object is formed photolithographically.

Description

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00 The invention relates to optical holography and can be used in information storage systems for the spatial separation of images in the construction of artistic panoramas, the creation and reproduction of art works, the registration of holographic portraits, etc. There is a known method of displaying optical information, which consists in recording and restoring the volume of images of objects. The recording is made according to the holographic scheme with an inclined reference beam, which leads to the separation of the holographic images. The part of the laser beam falling on the prism is deflected by it so that in the plane of the photographic plate this part of the beam (reference) collapses with the object part of the beam, i.e. . with a part of the beam passing through the object - a transparency. As a result, an image of the object L is recorded on a photographic plate. The disadvantage of this method is that a laser source is necessarily used as a reducing one, while under normal illumination the hologram is a transparent photographic plate. The closest in technical terms to the present invention is a method of forming an image consisting in recording holograms in colliding beams and reconstructing three-dimensional images. In this case, the image is restored by a conventional source with a continuous radiation spectrum, and the hologram selects only the wavelength used for recording from the entire spectrum, and forms an image taking into account those phase relationships and angles determined by the recording conditions of the holographic image of object 2. The disadvantage of this method is that in the absence of a recovery source or in the case of an extensive source, an image is not formed and the field gram does not carry visual information. The purpose of the invention is to improve the criteria of visual efficiency. This goal is achieved in that according to the method of image formation, consisting in recording a hologram in colliding beams and reconstructing the image of an object, illuminate the hologram with a G-beam intensity and orient the two-dimensional projection of the reconstructed image with a focused image of the same object deposited on the substrate. Moreover, the formation of a focused image of an object is performed by applying a photolithographic image on a substrate and separating it with a volumetric reconstructed image. Example. A ffe-Ne laser (type LG-38) with a power of 40 mW is used as a radiation source. By means of a micro-lens and aperture, the expanded and filtered beam of radiation is directed to the holographic object. Photoplastic materials of type PE-2, LOI-1 are placed in front of the object at an angle of 20-30 ° to the incident radiation. Recording is carried out according to the scheme in colliding beams. Radiation of a He-Ne laser, padacode on a plate and scattered by an object interferes in the plane of the photoemulsion, which thus registers an interference field carrying information about the volume image (Denisyuk formula). The wave function of the total wave field in this case is recorded in the following way, and Vs t Vo, where, Vo 4 (2) 27 ac is a half of the pad k, to the radiation object. The intensity of this field can be found by multiplying y by «o the exposure time is 5 ceif. The appearance is made in the GT1-2 Projector. Time of occurrence 12 min. Temperature is about 20. The restoration is carried out in the radiation of the illuminator SI-19. A volume holographic image is observed. By a two-dimensional projection of the holographic image onto another plate, the image of the same object is applied using the photolithography method. After that, the holographic and photolithographic images are combined with each other, which is achieved by overlaying two plates: the hologram and the plate with the photolithographic image. And,

A plate with a photolithographic image is placed behind the hologram. In this case, under normal illumination, only the photolithographic image is observed.

At the restoration stage, in the presence of a point source of light or the Sun, a holographic image of the same object is formed, moreover, its contrast is much higher than the photolithographic one. As the brightness of the restoring source changes, the brightness of the holographic image and the ratio of the brightness between the holographic and photolithographic images change.

By changing the recording scheme, one can get a three-dimensional image of the object both in front of the hologram plane (the image is hanging in the air) and behind it (the effect of depth increases), V

The advantage of the proposed method of displaying information is that, in any light, depending on the luminance of the source, the alternately visible photolithographic and holographic images carry continuous information about the object, as a result of which there is no need. bridge in special lighting.

Claims (2)

METHOD FOR FORMING THE IMAGE- ZHENIY, which consists in recording a hologram in oncoming beams and restoring an image of an object, characterized in that, in order to improve the criterion of visual efficiency, the hologram is illuminated with a beam of variable intensity and the two-dimensional projection of the reconstructed image is focused with a focused image of the same object deposited on the substrate. 2. The method according to p. ^ Characterized in that the focused image of the object is formed photolithographically. § £ >