LT5573B - Method for holograms and holographic printings contact copying - Google Patents

Abstract

This invention is related to holography and is used for contact copying method of hologram and holographic printings with impulsive and permanent operation laser. Also this invention can be used for relief objects (coins, pictures) copying and for making Denisiuk type holograms of these objects. The proposed method by which unexploited light-sensitive material, applied on the base is parallel with the placed copying hologram or holographic printing is lighted by the coherent narrow gap shaped laser beam this way it's lighten unexposed light-sensitive material zone, have to be parallel to coherent light falling direction projection to copied hologram or holographic printing surface. And this zone is moved unexposed light-sensitive material and copied hologram or holographic printing surface direction. It is perpendicular to coherent light beam, and it lights copied hologram or holographic printing and recreating the view, of falling direction projection to abovementioned materials surface planes.

Description

The present invention relates to holography and is intended for copying holograms and holographic prints by means of contact copying by pulsed or continuous laser. The present invention can also be used for copying relief objects (coins, paintings) and for making Denysiuk-type holograms of these objects.

There is a known method of copying holograms according to U.S. Pat. 4416540, which does not expose a photosensitive material to the substrate and is placed parallel to (on or below) the replica hologram plane, is illuminated by a narrow slit beam of coherent laser radiation. Coherent laser irradiation restores the image recorded in the hologram, that is, becomes an objective light beam, and at the same time acts on the unexposed photosensitive material as a support beam for coherent light, and therefore interferes with the information contained in the copied hologram. The illuminated area of the copied hologram, which is illuminated by this slit-shaped beam, is perpendicular to the projection of the incident light direction of the coherent light on the plane of the copied hologram and is forced to slide over unexposed photosensitive surfaces in a direction parallel to

The disadvantage of said method of copying holograms is that a portion of the unexposed photosensitive material illuminated by the incident and support light beams incident on it remains illuminated by the objective fiber forming the image of the copied hologram. This is due to the laser beam's narrow slit-shaped coherent light beam reproducing the image of the copied hologram and simultaneously being the perpendicularity of the illumination area to the incident projection of the incident light beam onto the plane of the copied hologram. In this way, along with the useful image, parasitic noise is always recorded that degrades copy quality, the greater the area of this parasitic illumination, the further the hologram is copied from the unexposed photosensitive material and the sharper the incident angle of the incident light beam. Because the copied hologram and itself is usually inscribed on a photosensitive material and overlaid on some substrate, the space between the copied hologram and unexposed photosensitive material always exists, and the angle of incidence of coherent light can be as high as 15-20 degrees.

The object of the present invention is to improve the quality of reproduction of holograms and holographic prints and to enable the production of Denysiuk-type holograms of relief objects (coins, paintings, etc.).

The object is achieved by illuminating a narrow slit beam of coherent laser radiation in a method of exposing the photosensitive material to the substrate and placing it in parallel with a copied hologram or holographic print so that the exposed area of the non-exposed photosensitive material is smooth. projection of the incident light beam onto the plane of the copied hologram or holographic print, and this area is forced to scroll in the direction of unexposed photosensitive material and copied hologram or holographic print, perpendicular to the coherent light beam illuminating the copied hologram or holographic image surface plane of materials.

The length of the illuminated area of the laser beam's narrow slit beam at the point where it falls on the photosensitive is at least 1% greater than the length of the copied hologram.

The laser beam may have a narrow elongated rectangle or an elongated oval.

Also according to the present invention, the laser radiation may be pulsed and the energy distribution of the radiation may be in the form of Π.

In addition, the copied material can be illuminated with coherent radiation of several colors simultaneously.

Also, the copied material can be illuminated sequentially by coherent radiation of different colors.

The proposed method helps to improve the copying quality of holograms or holographic prints and enables the copying of relief objects (coins, pictures, etc.) and the production of Denysiuk type holograms.

The proposed method is explained by drawings in which:

FIG. a schematic diagram (side view) explaining the proposed method of copying the holograms;

FIG. a diagram illustrating the proposed method of copying the holograms is shown (front view);

FIG. shows a schematic of the proposed hologram copier.

The proposed approach consists of the following steps:

- unexposed photosensitive material 1, applied to a solid or flexible, transparent or opaque substrate 2, is placed on or under a copied hologram or holographic print 3 applied to the substrate 4 so that the planes of their surfaces are parallel (Fig. 1);

- unexposed photosensitive material 1 and illuminates the copied hologram or holographic print 3 with a narrow slit-shaped coherent laser beam 5 incident on the copied hologram or holographic print 3 in direction 6 and reproduces the image therein (region 1 of FIG. 1);

- this image interferes with the excited coherent laser radiation in unexposed photosensitive material and captures a copy of a copied hologram or holographic print (Figure 1 area 8);

- the narrow slit-shaped coherent laser light beam illuminating area 5 is parallel to the projection of the illumination direction 6 into the surface plane of the copying hologram 3

- the illumination direction is selected so that the maximum luminance of the reproduced copied hologram is perpendicular to the plane of the copied hologram;

- the narrow-slit coherent laser beam illuminated area 5 of the copied hologram is at least 1% longer than the length 9 of the copied hologram or holographic print 3 and unexposed photosensitive material 1;

- the zone 5 is forced to move in a direction 10 uniformly perpendicular to the projection of the incident light direction 6 of the coherent light on the plane of the copied hologram or holographic print 3.

The device (Fig. 3) employs pulsed lasers 11 emitting three different wavelengths in the red, green and blue color spectral ranges as sources of coherent radiation.

Further, waveguides 12, computer controlled rotary polarizers 13, telescopic laser beam cleaners - spatial filters 14, polarization correction compensators 15, mirrors 16, and a tri-color summator-guide 17 are provided in the direction of the radiation of the laser 11. A guide system 18 comprising a device with an elongated narrow rectangular or elongated oval slot 19.

The forming / guiding system 18 is mounted on a computer-controlled sliding motion actuator 20 capable of moving in the direction 21.

The forming / deflection system 18 shapes and deflects the beam onto a mirror 22 positioned so that the reflected beam falls on the unexposed photosensitive material 1 in a direction such that its illuminated zone 5 is parallel to the illumination direction 6 of the copied hologram 3. so that the maximum luminance of this image is perpendicular to the surface plane 3 of the copied hologram.

The width 23 of the mirror 22 is selected to illuminate the area 5 of the reflected beam of coherent radiation by illuminating the desired area of the copied hologram 3 while exposing the required area of unexposed photosensitive material 1.

The length 24 of the mirror 22 is selected such that the illuminated area 5 of the coherent beam reflected by it is at least 1% longer than the length of the copied hologram 3 and the unexposed photosensitive material 1 9.

The method is realized as follows.

The wavelengths of each of the radiation emitted by the lasers 11 must correspond to the wavelength of the colored (or monochrome) copied hologram or holographic image 3, so that the color balance is controlled by waveguides 12 controlled by a computer and polarizers 13.

The beams of the lasers 11 are then cleaned by a telescopic laser beacon - spatial filters 14, and their polarization is compensated by polarization correction compensators 15.

The cleared beams are guided by mirrors 16 to the tri-color adder guide 17.

The rays emit from the summing guide 17 in the same direction and path to the laser beam forming / deflection system 18. This system forms a narrow rectangular (or elongated oval) slit 19 of laser beam reflected by a flat or other mirror 22 , falling on a copied hologram or holographic print 3 and unexposed photosensitive material 1.

The width 23 of the mirror 22 is selected such that the area 5 illuminated by the beam of coherent radiation reflected by the mirror 22, exhibits the required area of unexposed photosensitive material 1 and illuminates the required area of the copied hologram or holographic print 24. so that the reflected area 5 of the coherent beam reflected by it is at least 1% longer than the length of the copied hologram or holographic print 3 and the unexposed photosensitive material 1. 9. The narrow-slit laser radiation falls on the unexposed photosensitive material 1, on a flexible or solid base and positioned on or under the copying hologram or holographic print 3 in such a direction that the illuminated area 5 is parallel to the projection of the illumination direction 6 of the copied hologram or holographic print 3 on the copied s hologram or holographic print 3 plane.

The laser beamforming / deflection system 18 is mounted on a computer-controlled scrolling motion actuator 20 which ensures its uniform motion in the direction 21, and thereby a coherent light beam in the direction 10 perpendicular to the incident direction of the coherent light beam illuminating the copied hologram. projection to the plane of the copied hologram, which in turn provides a smooth exposure of the unexposed photosensitive material by causing laser radiation to capture the holographic information copied therein.

The proposed method allows to improve the copying quality of holograms and holographic prints, as well as allows copying of relief objects (coins, pictures) and recording of these objects in Denysiuk type holograms.

Claims (6)

Definition of the Invention 1. A method of contact copying of holograms and holographic prints by exposing a non-exposed photosensitive material (1) to the substrate and placing a copying hologram or holographic print (3) parallel thereto in a narrow-slit beam of coherent laser radiation and translating the illuminated area. scrolling over the surface of the unexposed photosensitive material (1), characterized in that said narrow slit beam of coherent laser radiation is directed so that the area (5) of the unexposed photosensitive material (1) illuminated by said beam is parallel to the projection of the incident coherent light direction (6) to the surface plane of the copying hologram or holographic print (3) and forcing this area (5) to scroll with the unexposed photosensitive material (1) and the surfaces of the copying hologram or holographic print (3) perpendicular to the coherent beam, viečiančio master hologram or holographic print (3) and recreating the image falling direction of the said surface of the material plane. 2. A method as claimed in claim 1, wherein the laser beam forms a narrow slit beam so that its illuminated area (5) at the point where it falls on the photosensitive material (1) is at least 1% larger than The length of the hologram or holographic print 3 to be copied. 3. A method as claimed in claims 1 and 2, wherein the laser beam has a narrow slit beam which may be narrow rectangular or elongated oval. 4. A method according to claim 1, characterized in that the material to be copied (3) is illuminated simultaneously by coherent radiation of several colors. 5. A method according to claims 1 and 4, characterized in that the copying material (3) is illuminated by coherent radiation of different colors sequentially. 6. A method as claimed in claim 1, wherein the laser radiation can be pulsed and the energy distribution of the radiation can be Π.