JPH05249877A - Method for duplicating hologram - Google Patents

Abstract

PURPOSE:To facilitate the high-speed duplication of holograms without requiring stages for tight contacting and peeling and to facilitate the duplication while satisfying Bragg conditions at all times. CONSTITUTION:Original plate holograms 21 are stuck to a rotating body 20 having such a surface shape that reproduced light satisfies the Bragg conditions within the plane perpendicular to the axis of rotation at any rotating angles or in any positions on the original plates at any angles. A photosensitive film 22 for duplication is wound around this rotating body from above the original plate holograms 21 and is brought into tight contact with the rotating body. The rotating body 20 is then rotated together with the photosensitive film 22 for duplication and is irradiated with the reproduced light 23 having the width wide in the direction of the axis of rotation of the rotating body 20 and narrow in the rotating direction thereof on the curved surfaces of the rotating body 20, by which the holograms are duplicated on the photosensitive film 22.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a hologram contact duplication method.

[0002]

2. Description of the Related Art A conventional hologram contact duplication method will be described with reference to FIGS. FIG. 8A is a diagram for explaining duplication of a planar transmission type original hologram. The duplication photoconductor 2 is brought into close contact with the back side of the transmission type original hologram 1,
When the original hologram 1 is illuminated from the front side with the reproduction light 3,
The hologram acts as a diffraction grating to generate transmitted diffracted light 4, and this diffracted light is modulated by an object wave, and the reproduced image of the hologram is photosensitized recorded on the duplication photoreceptor 2 and duplicated.

FIG. 8B is a diagram for explaining the duplication of a planar reflection type original hologram. Reflective original hologram 1
The reproduction photoconductor 2'is brought into close contact with the surface side of the ‘
When the original hologram 1'is illuminated from the surface side with, the hologram acts as a diffraction grating to generate reflected diffracted light 4 ',
This diffracted light is modulated by the object wave, and the reproduced image of the hologram is sensitized and recorded on the photoconductor for duplication 2 and duplicated.

FIG. 9 is a view for explaining a conventional method for continuously closely copying holograms. When the reflective original plate hologram 5 is attached to the rotating cylinder 6 and the duplication photosensitive film 7 is wound on the hologram, and the cylinder is rotated to continuously supply the film and illuminate with the reproduction light 8, the hologram is reflected by the reflected diffraction light. The reproduced image is continuously sensitized and recorded on the photoconductor film for duplication 7 and duplicated.

[0005]

However, in the method using the planar original hologram shown in FIG. 8, it is necessary to repeat the contact, the exposure, the peeling, and the movement of the photoconductor for each copy, and the copy takes time. At the same time, there is a drawback that the copying apparatus becomes complicated and expensive.

In addition, the method of pasting the original onto the rotating cylinder shown in FIG. 9 has the advantage that continuous duplication and simplification of the duplication device are possible, but since the original has a curvature, it is a so-called conjugate of the original. However, there is a drawback in that it is impossible to perform proper reproduction, and aberrations and uneven diffraction efficiency occur.

The present invention is intended to solve the above problems and provides a hologram duplication method capable of high-speed duplication without the steps of adhesion and peeling, a simple apparatus, and a completely conjugate reproduction. The purpose is to provide.

[0008]

First, referring to FIG. 1, a method for obtaining the surface shape of a rotating body used for replication in the present invention will be described. It should be noted that in the duplication, an original hologram is affixed to a rotating body, and a duplicating photoconductor is brought into close contact with this for exposure, and as described below, a reproduction light source placed at the same position as the reference light source at the time of making the original plate. When illuminated, the surface shape of the rotating body is calculated so that the reproduction light always satisfies the Bragg condition with respect to the original plate even if the rotating body rotates.

The original plate, which is a plane hologram, is prepared by arranging a photoconductor on AQ in the figure and diverging light emitted from a reference point light source at a point P separated by a distance d. The rotating body 10 on which the original plate is attached rotates on a point O as the center of the rotating shaft, has a predetermined width in the rotating shaft direction, and a cross section perpendicular to the rotating shaft is shown in the drawing. The surface shape of the rotating body 10 is such that the incident angle θ of light from the reference point light source at the point P and the distance PA (= d / cos θ) from the reference point light source at an arbitrary point A on the hologram surface AQ at the time of producing the original plate. ) Are equal to each other, that is, points C that are equal to each other are obtained by sequentially plotting. Here, it is assumed that the wavelengths of light are the same at the time of making the original plate and at the time of copying, and in this case, the “Bragg condition” is equivalent to the “same incident angle”.

The light source at the time of reproduction is at the same point P as that at the time of making the original plate, and the light spreads from P to Q in a slit shape having a narrow spread in the vertical direction of the figure and a width in the direction of the rotation axis (direction perpendicular to the paper surface). And OP = 1, OC = OB = r, PQ = d,
The surface shape of the rotating body is represented by φ = f (r) in polar coordinates.

When the rotating body 10 rotates clockwise by φ from the state of FIG. 1 around the point O, the point on the surface of the rotating body irradiated from the reproducing light source becomes C and coincides with the point B on the straight line OP. It shall be. At this time, PA = PB = PO-BO = PO-CO (...) (1) is necessary for point C to have a distance equivalent to that at the time of making the original plate, where PA = d / cos θ.
Therefore, the condition is d / cos θ = 1−r (2) Further, since the point C is located at the point B during reproduction and the reproduction light is incident in the CO direction, in order for the incident angles to be the same at the time of making the original plate and at the time of reproduction, the straight line OC and the curve QC
The angle between the point and the perpendicular, that is, point C on the surface of the rotating body
The angle formed by the tangent line 11 at and the tangent line 13 at the point C of the arc BC needs to be θ. Therefore, the condition is dr / rdφ = tan θ = ((1 / cos ² θ) −1) ^1/2 (> 0) (3). When cos θ is eliminated from the equations (2) and (3), dφ / dr = d / r (r ² −2lr + l ² −d ² ) ^1/2 (4) is derived. In the equation (4), the condition that the original plate is attached to the surface of the rotating body, that is, when φ = 0, r = 1d
Integrating under the condition of φ = d / (l ² -d ² ) ^1/2 · log ｜ rd / (l ² -d ² -lr + ((l ² -d ² ) (r ² -2lr ＋ l ² -d ² )) ^1/2 ) ｜ ………… (5) is obtained. When the original plate is attached to the surface of the rotating body satisfying the expression (5) and the light-sensitive material adhered to the original plate is reproduced by illuminating from point P with reproduction light having a sufficiently thin slit, when the rotating body rotates. The reproduction light always satisfies the Bragg condition with respect to the original plate, and it is possible to duplicate a hologram without aberration. In the above, the case where the wavelength of light is the same at the time of making the original plate and at the time of copying is explained. The curved surface of the rotating body may be obtained by obtaining the angle to be satisfied.

FIG. 2 shows that holograms are continuously reproduced by using the rotating body prepared by the above-mentioned method. The rotating body 20 is a rotating body created by the method described in FIG. 1, has a cross section perpendicular to the rotation axis, and rotates about the point O. A reflection type original hologram 21 is attached to the surface of the rotating body. It should be noted that the rotating body needs to be transparent at least in the portion to which the original hologram 21 is attached. The duplication photosensitive film 22 is brought into close contact with the rotator 20 and rotated together with the duplication photosensitive film 22. It is assumed that the original hologram 21 is formed by a reference point light source of point P. When a reproducing light source is arranged at this point P and a slit-shaped reproducing light having a wide width in the rotation axis direction and a narrow width in the rotation direction is radiated on the curved surface of the rotating body, the rotating body 20 is rotated on the rotation axis at any rotation angle. Since the reproduction light satisfies the Bragg condition with respect to the original plate in the vertical plane, it is possible to continuously perform hologram replication with less aberration.

The case where the Bragg condition is two-dimensionally satisfied in the plane perpendicular to the rotation axis has been described above.
It is also possible to make the surface shape of the rotating body satisfying the Bragg condition three-dimensionally in consideration of the direction of the rotating axis. By doing so, when the rotating body rotates, it can be placed at any position on the original plate. The reproduction light satisfies the Bragg condition with respect to the original plate.

FIG. 3 shows a reproduction using reproduction light which converges on the center of rotation of the rotating body.

Also in FIG. 2, the Bragg condition can be satisfied for all lights by making the slit light sufficiently thin, but the light deviated from the line connecting the center of the light source and the rotating body is strictly Bragg. The condition is not satisfied, and aberration occurs. Therefore, as shown in FIG.
Using 0, the reproduction light 31 that converges on the center O of the rotating body is used. The reproduction light has almost the same incident direction with respect to the original plate 21 along the rotation direction, and by reproducing with the reproduction light, hologram reproduction with less aberration can be performed.

FIG. 4 shows an example in which a cylindrical body is provided for bringing the photoconductor film for reproduction into close contact with the rotating body.

The original hologram 21 is attached to the rotating body 20 having the same shape as described with reference to FIG.
2 is wound, and the photosensitive film is pressed against the rotating body 20 by the rotatable cylindrical body 40 so as to be in close contact with the rotating body 20. Cylindrical body 40
Is movable in the direction indicated by arrow A, and
It moves in the direction of the arrow with the rotation of 0, and constantly contacts the rotating body to function to bring the photosensitive film into close contact with the rotating body. In this way, the close contact of the photoconductor film 22 with the rotating body 20 is maintained, and by irradiating the reproduction light as shown in FIGS. 2 and 3, the reproduction light satisfies the Bragg condition with respect to the original plate and is more aberrated. It is possible to duplicate the original hologram with less.

FIG. 5 shows an example in which a rotating body having a specific shape is provided for bringing the photoconductor film for reproduction into close contact with the rotating body.

FIG. 5 shows a rotary body 50 arranged in place of the cylindrical body of FIG. 4, and the rotary body 50 has a surface shape such that the surface thereof is always in contact with the rotary body 20 to rotate. Therefore, the rotating body 20 of the photoconductor film 22 is
Since the reproduction light satisfies the Bragg condition with respect to the original plate by irradiating the reproduction light as shown in FIG. 2 and FIG. it can.

FIG. 6 shows a case where a hologram is continuously reproduced by using a transmission type original hologram.

In FIG. 6, the rotor having the same surface shape as that in FIG. 1 is hollow, and a transmission type original hologram 61 is attached to the surface thereof. In addition, the portion of the rotating body 20 to which the original hologram 61 is attached is light transmissive. Then, the original hologram 61 is illuminated through the rotating body with the reproduction light 60 from the light source arranged inside the rotating body.
If the illumination conditions in this case are also the same as those described with reference to FIGS. 2 and 3, the reproduction light satisfies the Bragg condition with respect to the original plate and the original hologram can be duplicated with less aberration.

In FIGS. 2 to 6, index matching is performed by interposing a liquid between the original plate and the photoconductor film to prevent reflection and at the same time prevent the original plate and the duplication photosensitive material that are once in contact with each other from being separated by surface tension. Can be

[0023]

According to the present invention, the surface shape is such that the reproduction light satisfies the Bragg condition with respect to the original at any rotation angle in the plane perpendicular to the rotation axis or at any position on the original at any rotation angle. The original hologram is attached to the rotating body, and the duplication photosensitive film is wound on the original hologram to be in close contact with the original, and the rotating body is rotated together with the duplicating photosensitive film.
Since the reproduction light having a wide width in the rotation axis direction of the rotation body and a narrow width in the rotation direction is irradiated on the curved surface of the rotation body, it is possible to perform high-speed duplication without the steps of adhesion and peeling, and the device is simple. Moreover, completely conjugate reproduction is also possible by using a rotating body whose curved surface is precisely designed.

In addition, index matching can be performed by using a liquid between the original plate and the photoconductor film to prevent reflection and at the same time prevent the original plate and the photoconductor for duplication, which are once brought into close contact with each other, from being separated by surface tension.

[0025]

[Example] As a light source, He with a wavelength of 633 nm and 50 mW
An Ne laser was used and an optical system as shown in FIG. 7 was used. In FIG. 7, the photosensitive material 71 is ILFORD SP.
It is a 673T film and is illuminated by separating the object 70 and the lens 71 from the photosensitive material side by 60 cm.
And a reference light 73 from the light source are caused to interfere with each other to record a hologram image on the photosensitive material 71, thereby forming a reflection type original hologram.

Next, using the same light source and photosensitive material as those used for producing the original hologram, the optical system shown in FIG. 2 (where d = 60 / cos 30 ° = 69.3c in FIG. 1) is used.
When a hologram was duplicated using m, l = 140 cm, it was possible to obtain a duplicate without aberration and unevenness.

[0027]

As described above, according to the present invention, it is possible to duplicate at high speed without the steps of adhesion and peeling, and the apparatus is simple.
Further, since the Bragg condition can always be satisfied for the duplication, it is possible to duplicate the hologram that can be reproduced in a completely conjugate manner.

[Brief description of drawings]

FIG. 1 is a diagram illustrating a method for obtaining a surface shape of a rotating body used for replication used in the present invention.

FIG. 2 is a diagram showing an example in which holograms are continuously copied using the rotating body described in FIG.

FIG. 3 is a diagram illustrating an example in which a hologram is duplicated by using convergent light as reproduction light.

FIG. 4 is a diagram illustrating an example in which a photosensitive film is brought into close contact with a rotating body by using a cylindrical body.

FIG. 5 is a diagram illustrating an example in which a photoconductor film is brought into close contact with a rotating body by using a rotating body that is in constant contact.

FIG. 6 is a diagram showing an example in which a transmissive original hologram is used.

FIG. 7 is a diagram showing an optical system for creating an original hologram.

FIG. 8 is a diagram illustrating a conventional planar original hologram duplication method.

FIG. 9 is a diagram illustrating a conventional original hologram duplication method using a rotating cylinder.

[Explanation of symbols]

20 ... Rotating body, 21 ... Original hologram, 22 ... Photoconductor film for duplication, 23, 31 ... Reproducing light, 30 ... Optical system, 4
0 ... Cylindrical body, 50 ... Rotating body, 60 ... Reproduction light, 61 ... Original hologram, 70 ... Object, 71 ... Photosensitive material, 72 ... Object light, 73 ... Reference light.

Claims (11)

[Claims] 1. A hologram as an original plate is attached to a rotating body, and a duplication photosensitive film is wrapped around the original hologram to be in close contact with the original hologram. In the hologram duplication method of irradiating reproduction light having a wide width in the rotation axis direction of the rotator and having a narrow width in the rotation direction to duplicate the hologram information on the duplication photoconductor film, the rotator is at any rotation angle. A method of replicating a hologram, wherein a reproduction light has a surface having a shape satisfying a Bragg condition with respect to an original in a plane perpendicular to a rotation axis. 2. The rotating body has a surface having a shape in which reproduction light satisfies a Bragg condition with respect to the original plate at any position on the original plate at any rotation angle.
A method for reproducing the hologram described. 3. A hologram serving as an original plate is attached to a rotating body, and a duplication photosensitive film is wrapped around the original hologram to be in close contact with the original hologram, and the rotating body is rotated together with the duplicating photosensitive film, so that the hologram is curved on the rotating body. In the hologram duplication method of irradiating reproduction light having a wide width in the rotation axis direction of the rotator and having a narrow width in the rotation direction to duplicate the hologram information on the duplication photoconductor film, the rotator is at any rotation angle. A method of replicating a hologram, wherein a reproduction light has a surface having an incident angle with respect to an original plate in a plane perpendicular to a rotation axis, which is the same as that at the time of photographing the original plate. 4. The rotating body has a surface having an angle of incidence of reproduced light with respect to the original plate at any position on the original plate at any rotation angle, which is the same as that at the time of photographing the original plate. How to duplicate a hologram. 5. The method according to claim 3, wherein the rotating body has an equal distance from a divergent point light source at the time of producing the original plate at any position on the original plate at any rotation angle, and has a divergent point at the time of producing the original plate. A method of replicating a hologram having a surface such that the incident angle of the reproduction light is equal to the incident angle of the light source. 6. The method according to claim 1, wherein light is condensed in a plane perpendicular to the rotation axis such that the reproduction light is incident on the original plate in a substantially equal direction along the rotation direction. A method of duplicating a hologram, characterized in that a reproducing light for reproducing the hologram is used. 7. The method according to claim 1, wherein at least one rotatable cylinder is arranged facing the rotating body with the photoconductor film for duplication interposed therebetween. A method of duplicating a hologram, characterized in that a photoconductor film for duplication is sandwiched between the photoconductor film and the photoconductor film to be brought into close contact with a rotating body. 8. The method according to claim 1, wherein at least one other rotating member having a shape that is in constant contact with the surface of the rotating member is disposed with the photoconductor film for duplication interposed therebetween, and the rotating member is rotated. A method of duplicating a hologram, characterized in that a photoconductor film for duplication is sandwiched between a body and another rotator to bring the film into close contact with the rotator. 9. The hologram according to claim 1, wherein the original hologram is of a reflection type, and reproduction light is applied to the original through a photoconductor film for reproduction. How to duplicate. 10. The method according to claim 1, wherein the original hologram is a transmissive type, and the portion of the rotating body on which the original plate is attached is light transmissive.
A method of replicating a hologram, characterized in that reproduction light is applied to the original plate from a rotating body through a light transmitting portion of the rotating body. 11. A method of duplicating a hologram according to claim 1, wherein a liquid is interposed between the original hologram and the photoconductor film for duplication.