JPH0830184A - Formation of holographic stereogram - Google Patents

Abstract

PURPOSE:To obviate degrading of image quality of projected original pictures, to improve stability to vibration at the time of photographing and vibrating and to constitute an optical system which is simple and compact by arranging a diffusion plate of a reflection type parallel with a photosensitive material. CONSTITUTION:The diffusion plate 1 of the photographic optical system functions to reflect and diffuse the projected light of the images of an original picture array 5. The certain image of the original picture array (positive film) 5 is projected by a laser and is projected to the diffusion plate 1 as the projected light 6 past a lens 4 for projecting. The reflected and diffused light 7 diffused at the diffusion plate l is made incident as object light on a photosensitive material 3 and is made to interfere with the reference light separately made incident, by which the object light is recorded. A mask 2 having a slit is moved to change the region to be recorded on the photosensitive material 3 and thereafter, the similar photographing and recording are executed by as much as the number of sheets of the original pictures and the photosensitive material is subjected development processing, by which a first master hologram is obtd. at the time of photographing and recording the other image of original picture image array 5.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for producing a holographic stereogram, and more particularly to a method for producing a holographic stereogram that can be photographed with an optical system having a simple and compact structure.

[0002]

2. Description of the Related Art A process for producing a holographic stereogram (hereinafter referred to as HS) by a general two-step method is as shown in the flow chart of FIG.

Step A ... Original Image Shooting HS is a method in which a plurality of original images having parallax are combined and recorded as one image by a holographic method. And

Although a CG (computer graphics) image may be used as the original image, in the present specification, the original image using an image obtained by actually photographing a subject will be described below.

A subject is photographed from multiple directions by an image pickup means such as a moving camera to obtain a plurality of original images having parallax. The shooting method may be multiple shots as the camera moves linearly, or the subject is mounted on the turntable.
A method in which the camera is rotated and a fixed camera shoots a large number of times may be used, and any method may be used depending on a required original image.

Step B ... Imaging of First Master Hologram The positive film of the original image obtained as described above is recorded as a first master hologram (hereinafter referred to as H1).

FIG. 2 shows an outline of the main part of the H1 photographing optical system. A certain image in the original image sequence (positive film) 5 is projected by a laser, and the diffuse projection light 7 transmitted through the diffuser plate 1 is made incident as an object light to an appropriate position of the photosensitive material 3 (becomes H1) and separately made incident. It is recorded by interfering with the reference light that is generated.

When another image of the original image train 5 is to be photographed / recorded, the mask 2 having slits is moved to move the photosensitive material 3
The area to be recorded in 1 is changed to an appropriate position, the same shooting and recording are performed as many times as the number of original images, and development processing is performed to obtain H1.

In the conventional photographing optical system, the diffusion plate 1 is
It functions to transmit and diffuse the projection light of the image of the original image sequence 5.

Step C ... Imaging of Second Master Hologram H1 obtained above is recorded as a second master hologram (hereinafter referred to as H2) so that reproduction with white light is also possible. That is, in the present situation, the white light reproduction type HS is currently photographed and recorded in two steps H1 and H2.

Although an outline of the photographing optical system of H2 is not shown, if H1 is illuminated with a laser beam with a wavefront conjugate with the reference beam at the time of recording, a hologram image is formed before and after the position of the diffusion plate 1 at the time of recording. Real image is reproduced.

Here, the photosensitive material is arranged at the position where the hologram image is reproduced, the hologram image reproduced by H1 is made incident on the photosensitive material as object light, and the reference light is made incident separately to cause interference between them. Take a picture and record it as H2.

After step C, the description of the process of mass-producing HS from the obtained H2 (made of a photosensitive material) will be omitted.

[0014]

In step B (recording of the first step), when the transmissive diffusion plate 1 is used, the influence of the 0th-order light that is transmitted without being diffused (in the image of the completed HS, In order to avoid the phenomenon that the light source is reflected, especially when using a positive film as the original image, when using a pattern with a large shadow part, the image quality of the original image to be projected must be sacrificed to some extent. It was In addition, since it is necessary to use a diffusion plate having a high diffusion function and the amount of object light cannot be increased, a long exposure time is required, which results in deterioration of image quality.

An optical system using a transmissive diffusion plate is
Not only does the optical system take up a large space in the direction of the optical axis, but it also lacks stability with respect to vibration during shooting and recording.

The present invention provides a method for manufacturing an HS which does not deteriorate the image quality of a projection original image, is excellent in stability against vibration during photographing and recording, and has a simple and compact optical system. The purpose is to

[0017]

That is, according to the present invention, a reflective diffusion plate is arranged in parallel with a light-sensitive material at the time of photographing a first master hologram in the production of HS, and projection onto the diffusion plate is performed. The method is characterized by including a step of causing the photosensitive material to interfere with the object light diffusely reflected by the irradiation of light and the reference light from another direction to obtain the first master hologram.

Further, it is characterized in that a diffraction grating or a micro prism is used instead of the reflection type diffusion plate.

[0019]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments will be described below with reference to the drawings. FIG. 3 is an explanatory diagram showing an outline of a main part of the H1 photographing optical system in the present invention.

In the taking optical system shown in FIG. 3, the diffusion plate 1 is
It functions to reflect and diffuse the projection light of the image of the original image sequence 5.

A certain image in the original image train (positive film) 5 is projected by a laser and projected on the diffuser plate 1 as projection light 6 which has passed through the projection lens 4.

The reflected diffused light 7 diffused by the diffusing plate 1 is made incident on the photosensitive material 3 (which becomes H1) as object light, and is recorded by causing it to interfere with the separately inputted reference light.

When photographing and recording another image of the original image sequence 5, the mask 2 having a slit is moved to move the photosensitive material 3
After changing the area recorded in,
H1 is performed by performing the development process after performing the number of original images.
Get.

FIG. 4 is an explanatory view of the optical characteristics of the reflection type diffusion plate. When the projection light 8 is made incident on a general diffusion plate 11 exemplified by an acrylic plate, frosted glass, etc. (when the transmitted component is disregarded), specular reflection light 9 (0th order light)
A large amount of diffusion component 10 will be distributed in the direction of. (Fig. 4
(a))

On the other hand, FIG. 4 which is suitable for use in the present invention
As shown in the diffuser plate 12 in (b), if directivity can be provided in the direction of diffuse reflection, it is possible to prevent the 0th-order light, which adversely affects shooting and recording, from entering the photosensitive material. The amount of light can be increased, a long exposure time is not required, and image quality does not deteriorate.

By adopting a diffraction grating or a micro prism as the reflection type diffusion plate having the above-mentioned optical characteristics, it is possible to arbitrarily design and change the directivity to be provided in the direction of diffuse reflection.

[0027]

In the taking optical system according to the present invention, the axes of the original image, the diffuser plate and the photosensitive material do not form the same straight line, so that the harmful zero-order light influences (in the completed HS image, In addition, it is possible to avoid the phenomenon that the light source is reflected. As a result, it becomes possible to expand the range of design choices that can be adopted as the original picture.

Since a material that does not pass through can be used as the diffusion plate, the range of selection of materials can be expanded, and since a diffraction grating or a micro prism can also be used, it is possible to freely design and change the optical characteristics.

Further, not only a simple and compact structure of the optical system but also a preparation method excellent in stability against vibration during photographing / recording is provided.

[0030]

[Brief description of drawings]

FIG. 1 is a flowchart showing a process of creating a holographic stereogram.

FIG. 2 is an explanatory diagram showing an outline of a main part of a conventional photographing optical system.

FIG. 3 is an explanatory diagram showing an outline of a main part of a photographing optical system of the present invention.

FIG. 4 is an explanatory diagram of optical characteristics of a reflective diffusion plate.

[Explanation of symbols]

 1 ... Diffusion plate 2 ... Mask 3 ... Photosensitive material 5 ... Original image sequence 6, 8 ... Projected light 7 ... Reflected diffused light 9 ... Specular reflected light 10 ... Diffusion component distribution

Claims (2)

[Claims] 1. When a first master hologram is photographed in the production of a holographic stereogram, a reflective diffusion plate is arranged parallel to the photosensitive material, and the diffusion plate is irradiated with projection light to diffuse the light. A method for producing a holographic stereogram, comprising the step of causing a reflected material beam and a reference beam from another direction to interfere with each other on the photosensitive material to obtain a first master hologram. 2. The method for producing a holographic stereogram according to claim 1, wherein a diffraction grating or a micro prism is used instead of the reflection type diffusion plate.