RU2446424C2 - Method for contact copying of holograms and topographic imprints - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: method involves steps on which unexposed light-sensitive material (1) is placed in parallel to the copied hologram (3) and the illuminated with coherent radiation in form of a narrow slit. The radiation forms an illumination (5) zone which remains parallel to the projection of the direction (6) of incidence of the coherent radiation on the plane of the copied hologram, and that zone is moved on surfaces of the unexposed light-sensitive material and the copied hologram in a direction (10) which is perpendicular to said projection.

EFFECT: improved method.

6 cl, 3 dwg

Description

FIELD OF THE INVENTION

This invention relates to holographic technologies. It is intended for contact copying of holograms and holographic prints using a pulsed or continuous laser. It is also possible to use this invention for the manufacture of Denisyuk holograms of relief objects (coins, bas-reliefs, etc.).

State of the art

A known method of contact copying of holograms according to US patent No. 4416540, according to which unexposed photosensitive material deposited on the base and located parallel to the plane of the hologram to be copied, above or below it, is illuminated by a beam of coherent laser radiation in the form of a narrow slit. Coherent laser radiation restores the image recorded in the hologram, forming an object beam of light, simultaneously acting as a reference beam on unexposed photosensitive material. As a result of the interference of the incident beam and reconstructed from the hologram, the information contained in the copied hologram is recorded in the unexposed photosensitive layer. The area of the copied hologram illuminated by a beam of incident coherent light in the form of a narrow slit is perpendicular to the projection of coherent light directed onto the surface of the copied hologram. The narrow slit zone is moved along the surface of the unexposed photosensitive material in a direction parallel to the direction of incidence of the indicated projection of coherent light onto the surface of the copied hologram.

The disadvantage of this method of contact copying is that part of the unexposed photosensitive material illuminated by the incident object and reference beam remains unlit object beam containing holographic information of the copied hologram. This is due to the fact that the narrow-gap zone illuminated by a beam of coherent laser radiation, which restores the image of the copied hologram and at the same time is the reference beam for the unexposed photosensitive material, is perpendicular to the projection of the direction of incidence of the coherent light onto the surface of the copied hologram. Therefore, this method records not only useful information, but also spurious noises that degrade the quality of the copy. The area of spurious illumination is the greater, the farther the copied hologram is from an unexposed photosensitive material, and the smaller the angle of incidence of a coherent light beam during contact copying of the hologram. Since the copied hologram itself is recorded on a photosensitive material and applied on the same basis, the distance between the copied hologram and unexposed photosensitive material always exists, and the angle of incidence of the beam of coherent light can reach 15-20 degrees.

Disclosure of invention

The purpose of the invention is to improve the quality of copying holograms and holographic prints, as well as providing the ability to produce holograms of Denisyuk relief objects (coins, paintings, etc.).

The goal is achieved in that in the proposed method, an unexposed photosensitive material deposited on the base and placed parallel to the plane of the copied hologram or holographic print is illuminated with a coherent laser beam in the form of a narrow slit so that the illuminated portion of the unexposed photosensitive material remains parallel to the projection of the direction of incidence of the coherent light beam on the surface of the copied hologram or holographic print. Further, this illuminated zone is moved along the surface of the unexposed photosensitive material and on the surface of the copied hologram or holographic fingerprint in the direction perpendicular to the direction of incidence of the coherent light beam that illuminates the hologram or holographic fingerprint and restores the image of the copied hologram or fingerprint on the surface plane of the unexposed photosensitive material.

The length of the narrow slit of the light spot illuminated by coherent laser radiation, at the point where this beam falls on the surface of the photosensitive material, is at least 1% greater than the length of the copied hologram and the length of the unexposed photosensitive material.

The light spot of coherent laser radiation has the form of a narrow rectangle or an elongated oval.

It is recommended to use pulsed laser radiation, and the energy distribution of the spot can be U-shaped.

The copied hologram can be illuminated by coherent radiation of various colors (wavelengths) simultaneously. You can also illuminate the copied material by radiation of various colors (wavelengths) sequentially one after another.

The proposed method improves the quality of copying holograms and holographic prints, and also makes it possible to produce Denisyuk holograms of relief objects.

Brief Description of the Drawings

The proposed method is illustrated by drawings, in which:

- figure 1 shows a diagram of the proposed method of copying holograms (side view);

- figure 2 shows a diagram of the proposed method for copying holograms (front view);

- figure 3 shows a diagram of the proposed device for copying holograms.

The implementation of the invention

The method of the present invention includes the following steps:

- unexposed photosensitive material 1, deposited on a solid or flexible, transparent or opaque base 2, is placed on or under the copied hologram or holographic imprint 3 placed on the base 4 so that the planes of their surfaces are parallel to each other (Figure 1);

- the unexposed photosensitive material 1 and the copied hologram or holographic fingerprint 3 are illuminated by a beam of coherent laser radiation in the form of a narrow slit incident on the copied hologram or holographic fingerprint 3 in direction 6, restoring the information recorded in it — the holographic image (Figure 1, position 7);

- this image interferes with the restored coherent laser radiation in the thickness of unexposed photosensitive material and is recorded in it as a copy of a hologram or holographic print (Figure 1, position 8);

- zone 5, illuminated by a beam of coherent laser radiation in the form of a narrow slit, parallel to the projection of the lighting direction 6 onto the surface plane of the copied hologram 3;

- the lighting direction 6 is selected so that the maximum brightness of the reconstructed image is perpendicular to the plane of the copied hologram;

- the length of zone 5 illuminated by a beam of coherent laser radiation in the form of a narrow slit is at least 1% greater than the length of the copied hologram or holographic prints 3 and the length 9 of unexposed photosensitive material 1;

- zone 5 is continuously moved in the direction 10 perpendicular to the projection of the direction of incidence 6 of the coherent light beam onto the surface of the copied hologram or holographic print 3.

In the device (Figure 3) for implementing the method of copying holograms and holographic prints of the present invention, pulsed lasers 11 are used as a source of coherent radiation, emitting light in three different spectral ranges: red, green and blue.

In the direction of laser radiation 11, computer-controlled rotating phase plates 12, polarizers 13, beam cleaners — telescopic spatial filters 14, compensators 15, correcting polarization, mirrors 16, and an adder 17 directing the radiation of three different spectral ranges of light are provided. Further, on the radiation path, a system 18 is provided for forming the geometry and direction of the beam with a built-in oval or rectangular slit 19.

The system 18 of forming the geometry and direction of the beam is mounted on a linear displacement module 20 controlled by a computer. Moving in direction 21.

The beam formed by the beam geometry and beam forming system 18 is directed to a mirror 22, such that the beam reflected by the mirror 22 is incident on an unexposed transparent photosensitive material 1 in direction 6 so that the illuminated zone 5 formed on the surface of the hologram or holographic print 3 , was parallel to the projection of the direction of incidence 6 of the coherent light beam onto the surface of the hologram 3 and restored the image recorded in the hologram so that the maximum is bright STI image was perpendicular to the surface plane of the hologram 3 copied.

The width 23 of the mirror 22 is selected so that the coherent radiation beam reflected from it illuminates zone 5, moving it using the linear displacement module 20, illuminating the desired area of the copied hologram 3 and at the same time exposing the necessary area of unexposed photosensitive material 1.

The length 24 of the mirror 22 is selected so that the beam of reflected coherent radiation incident on the copied hologram creates a zone 5, the length of which is at least 1% longer than the length of the copied hologram 3 and the length 9 of unexposed photosensitive material 1.

The method is as follows.

Each of the radiation wavelengths of the laser 11 must correspond to the wavelengths of the volumetric image produced by the color (or single-color) copied hologram or holographic fingerprint 3. The color balance is controlled by phase plates 12 and computer-controlled polarizers 13.

The laser beams 11 are cleaned by telescopic spatial filters 14, and the polarization is compensated by compensators 15, correcting the polarization.

Then the beams are directed to a directing adder 17 of the radiation of three different spectral ranges of light using mirrors 16.

From the directing adder 17, the beams are likewise directed to the system 18 of forming the geometry and direction of the beam, from which the beam, formed in the form of a narrow rectangular (or elongated oval) slit 19, is directed onto a flat or other shape mirror 22, from which the beam is reflected and falls onto copied hologram or holographic fingerprint 3 and onto unexposed photosensitive material 1.

The width 23 of the mirror 22 is selected so that by moving the illuminated zone 5 formed by the coherent radiation beam reflected from the mirror 22 using the motorized linear displacement module 20, the desired region of the copied hologram 3 is illuminated accordingly and the desired region of the unexposed photosensitive material is exposed 1. Length 24 of the mirror 22 select such that a beam of reflected coherent light incident on the copied hologram creates an illuminated zone 5, the length of which would be at least 1% more than the copied hologram 3 and length 9 of the unexposed photosensitive material 1. A narrow beam of coherent laser radiation falls on the unexposed photosensitive material 1 deposited on a solid or flexible base, placed above or below the hologram or holographic fingerprint 3. The laser beam falls in the direction 6 so that the illuminated zone 5 is parallel to the projection of the direction 6 of the incidence of the coherent radiation beam on the plane of the copied hologram 3.

The system 18 of forming the geometry and direction of movement of the beam is mounted on a computer-controlled motorized linear displacement module 20, which provides uniform movement in direction 21. At the same time, the motorized linear displacement module 20 provides advancement of the coherent radiation beam in direction 10, perpendicular to the projection of the direction of incidence 6 on the copy a hologram of a beam of coherent radiation illuminating the copied hologram. This, in turn, makes it possible to uniformly expose unexposed photosensitive material and the copied hologram, ensuring uniform recording of the information recovered from the copied hologram.

The proposed method allows to improve the quality of copying holograms and holographic prints and makes it possible to holographically copy relief objects (coins, paintings, etc.) by obtaining Denisyuk holograms.

Claims (6)

1. The method of contact copying of holograms and holographic prints, in which unexposed photosensitive material (1), deposited on the base and located parallel to the plane of the hologram or holographic print (3), is illuminated with a beam of coherent laser radiation in the form of a narrow slit and the illuminated area is moved over the surface unexposed photosensitive material (1), characterized in that the specified beam of coherent laser radiation in the form of a narrow slit is directed so that zone (5) illuminated by the indicated beam on an unexposed photosensitive material (1) remained parallel to the projection of the direction (6) of the incidence of coherent radiation on the surface plane of the copied hologram or holographic print (3), and the indicated zone (5) was moved over the surfaces of the unexposed photosensitive material (1) ) and the copied hologram or holographic fingerprint (3) in the direction (10) perpendicular to the projection of the direction of incidence of the beam of coherent radiation illuminating the copied hologram mu or a holographic imprint (3) and a reconstructing image of said hologram or said imprint on the surface plane of an unexposed photosensitive material. 2. The method according to claim 1, characterized in that the beam of coherent laser radiation in the form of a narrow slit is formed so that the length of the illuminated zone (5) in the place where this beam falls on the surface of the photosensitive material (1) is at least 1% more than the length of the copied hologram or holographic print (3). 3. The method according to claim 1 or 2, characterized in that the laser beam in the form of a narrow gap has the form of a narrow rectangle or an elongated oval. 4. The method according to claim 1, characterized in that the copied hologram or holographic fingerprint (3) is illuminated with coherent radiation of several wavelengths simultaneously. 5. The method according to claim 1, characterized in that the copied hologram or holographic imprint (3) is illuminated by coherent radiation of different wavelengths in series. 6. The method according to claim 1, characterized in that the laser radiation is pulsed, and the distribution of radiation energy can have a U-shape.

Images