DEVICE AND METHOD FOR PRODUCING AN EDGE-LIT-HOLOGRAM, EDGE-LIT-HOLOGRAM AND LIGHTING DEVICE FOR A VEHICLE

Abstract

A device for producing an edge-lit-hologram having a light source, in particular a laser light source, for generating a light beam, optical splitter for splitting the light beam generated by the light source into an object beam and a reference beam, imprinter for imprinting computer-generated information pertaining to the edge-lit-hologram to the object, optics for overlapping the object beam and the reference beam on or in a photosensitive recording medium for imprinting the edge-lit-hologram, wherein the optics comprise at least one body transparent to the reference beam through which the reference beam enters the photosensitive recording medium during operation of the device. The at least one transparent body shaped and disposed in the device such that the reference beam enters the body at an angle of less than 10 to the normal on the surface of the body or enters the body perpendicular to the surface of the body.

Claims

1. A device for producing an edge-lit-hologram, in particular a computer-generated edge-lit-hologram, the device comprising: a light source or a laser light source to generate a light beam; an optical splitter to split the light beam generated by the light source into an object beam and a reference beam; an imprinter to imprint to the object beam computer-generated information pertaining to the edge-lit-hologram; and optics for overlapping the object beam and the reference beam on or in a photosensitive recording medium for imprinting the edge-lit-hologram, wherein the optics comprise at least one body transparent to the reference beam through which the reference beam enters the photosensitive recording medium during operation of the device, and wherein the at least one transparent body is shaped and disposed in the device such that the reference beam enters the body at an angle of less than 10 to the normal on the surface of the body or enters the body perpendicular to the surface of the body.

2. The device according to claim 1, wherein the optics for overlapping the object beam and the reference beam comprise a reflector, in particular a concave parabolic reflector, from which the reference beam is reflected onto the at least one transparent body during operation of the device.

3. The device according to claim 2, wherein mutually facing surfaces of the reflector and the at least one transparent body correspond to each other or are similarly shaped, wherein a surface of the reflector facing the at least one transparent body is concave or parabolically concave, and wherein the surface of the at least one transparent body facing the reflector is convex or spherically convex.

4. The device according to claim 1, wherein the device further comprises a substrate or a transparent substrate on which the photosensitive recording medium is disposed.

5. The device according to claim 1, wherein the optics for overlapping the object beam and the reference beam comprise two bodies transparent to the reference beam through which the reference beam is adapted to enter the photosensitive recording medium, wherein the two bodies are disposed on sides of the substrate facing away from each other.

6. The device according to claim 1, wherein the device includes an immersion agent or an immersion liquid, which is disposed between the at least one transparent body and the photosensitive recording medium or between the at least one transparent body and the substrate.

7. The device according to claim 1, wherein the photosensitive recording medium together with the substrate are adapted to be moved relative to the at least one transparent body and the reflector.

8. The device according to claim 1, wherein the optics for overlapping the object beam and the reference beam are designed such that the angle of incidence at which the reference beam impinges upon the surface of a first portion of the recording medium is different from the angle of incidence at which the reference beam impinges upon the surface of a second portion of the recording medium.

9. A method for producing an edge-lit-hologram, in particular a computer-generated edge-lit-hologram, using a device according to claim 1, the method comprising: generating a reference beam; generating an object beam; imprinting computer-generated information pertaining to the edge-lit-hologram to the object beam; and overlapping the object beam and the reference beam on or in a photosensitive recording medium for imprinting the edge-lit-hologram, wherein the optics include at least one body transparent to the reference beam through which the reference beam enters the photosensitive recording medium, and wherein the at least one transparent body is shaped and disposed in the device such that the reference beam enters the body at an angle of less than 10 to the normal on the surface of the body or enters the body perpendicular to the surface of the body.

10. The method according to claim 9, wherein successively a plurality of portions of the photosensitive recording medium are simultaneously impinged upon with the object beam and the reference beam to produce a plurality of sub-holograms, wherein the angle of incidence at which the reference beam impinges on the surface of a first portion of the recording medium is different from the angle of incidence at which the reference beam impinges on the surface of a second portion of the recording medium.

11. The method according to claim 9, wherein the photosensitive recording medium is moved between an exposure with the object beam and the reference beam for generating a first sub-hologram and an exposure with the object beam and the reference beam for generating a second sub-hologram in a plane parallel to the planar surface of the recording medium.

12. The method according to claim 11, wherein the photosensitive recording medium together with the substrate is moved relative to the at least one transparent body and the reflector.

13. The method according to claim 9, wherein the produced, in particular computer-generated, edge-lit-hologram serves as a master hologram for the production of hologram replicas.

14. An edge-lit-hologram, in particular a hologram replica, produced with a device according to claim 1, wherein the edge-lit-hologram is provided to a curved surface and / or for use with a light source having a predetermined divergence.

15. A lighting device for a vehicle, in particular a headlight for a vehicle, comprising an edge-lit-hologram according to claim 14, wherein the lighting device includes a curved surface on which the edge-lit-hologram is disposed.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0021] The present invention will become more fully understood from the detailed description given hereinbelow and the accompanying drawings which are given by way of illustration only, and thus, are not limitive of the present invention, and wherein:

[0022] FIG. 1 is a schematic plan view of a part of a device according to the invention;

[0023] FIG. 2 is a schematic side view of the part of the inventive device according to FIG. 1.

DETAILED DESCRIPTION

[0024] In the illustrated embodiment, an edge-lit-hologram composed of a plurality of sub-holograms is to be imprinted into a photosensitive recording medium 1 shown only schematically. The sub-holograms can be arranged side by side in a two-dimensional matrix in an x- and a y-direction.

[0025] Photosensitive recording media 1 may be formed of conventional media used in the generation of holograms. The recording medium 1 may, for example, be formed as a film that is disposed on a transparent substrate 7, e.g., is laminated onto the substrate 7. The substrate 7 may be, for example, a glass or plastic substrate. The photosensitive recording medium 1 has a planar surface and extends in an x-y plane.

[0026] The embodiment of a device according to the invention partially shown schematically in FIG. 1 further comprises a laser light source, which generates a laser beam split by an optical splitter into an object beam 2 and a reference beam 3. The device further comprises a modulater, which may be formed as an LC display in a reflection arrangement. The LC display can be controlled as a function of computer-generated data, which relates to the creation of individual sub-holograms.

[0027] The object beam 2 can be widened onto the LC display by optics. As a function of the data controlling the LC display, the LC display can change the phase of parts of the object beam 2 during the reflection, so that parts of the object beam 2 undergo a phase shift relative to other parts of the object beam 2. As a result, the object beam 2 is imprinted with information pertaining to a sub-hologram.

[0028] The device further comprises a parabolic reflector 4 facing the photosensitive recording medium 1. In this case, the optical axis 5 of the reflector 4 extends in the x-direction through the x-y plane of the planar surface of the recording medium 1. In particular, the focal point 6 of the parabolic reflector 4 is in the x-y plane of the planar surface of the recording medium 1.

[0029] Laser beams extending parallel to the optical axis of the parabolic reflector 4, or in the x-direction in FIG. 2, are focused to the focal point 6 of the parabolic reflector 4, wherein the angle at which they enter the photosensitive recording medium 1 is dependent on the position in which they impinge upon the reflector 4.

[0030] FIG. 2 displays two exemplary reference beams 3, 3, each of which impinge on the reflector 4 in the x-direction and are spaced at a different distance from the optical axis 5 of the reflector 4. Accordingly, also the angle at which they impinge on the recording medium 1 is different.

[0031] The reference beam 3 impinging on the reflector 4 far below the optical axis 5 in FIG. 2 is incident on the surface of the recording medium 1 at a larger angle of incidence to the x-y plane than the reference beam 3 in FIG. 2 impinging on the reflector 4 further up or closer to the optical axis 5. A variation of the position of the reference beam 3, 3 thus results in a change in the angle of incidence at which the reference beam 3, 3 impinges on the recording medium 1 and thus also in a change in the orientation of the Bragg planes in the edge-lit-hologram as well as in a change in the angle of incidence at which the edge-lit-hologram can later be reconstructed.

[0032] The object beam 2 is not reflected at the reflector 4 but moves in FIG. 2 in the positive z-direction upward directly into the recording medium 1 and is superimposed there with the reference beam 3, 3. By interference with the reference beam 3, 3, an edge-lit-hologram is written into the photosensitive recording medium 1 in a conventional manner.

[0033] The device further comprises two transparent bodies 8, 9, one of which is arranged above the recording medium 1 and one below the substrate 7. The transparent bodies 8, 9 are connected to the substrate 7 or the recording medium 1 by means of an immersion agent 10, for example an immersion liquid having a suitable refractive index.

[0034] The surfaces 11, 12 of the reflector 4 facing the transparent bodies 8, 9 on the one hand and the surfaces 13, 14 of the transparent bodies 8, 9 facing the reflector 4 on the other hand correspond with each other and are similarly shaped. For example, the surfaces 11, 12 of the reflector 4 facing the transparent bodies 8, 9 are parabolically concave and the surfaces 13, 14 of the transparent body 8, 9 facing the reflector 4 are spherically convex. In particular, the reflector 4 and the transparent bodies 8, 9 may have the same curvatures at least in sections and a surface design which is concentric relative to one another.

[0035] In embodiments in which the shape of the reflector 4 is not parabolic, the surfaces 13, 14 of the transparent bodies 8, 9 can have a curvature which deviates from a spherical design, in particular a free form.

[0036] The mutually corresponding shapes of the surfaces 11, 12 of the reflector 4 facing the transparent bodies 8, 9 on the one hand and the surfaces 13, 14 of the transparent bodies 8, 9 facing the reflector 4 on the other hand ensure that reference beams 3, 3 reflected from the reflector 4 on the transparent body 8, 9 always vertically impinge on the surface of the transparent bodies 8, 9.

[0037] By the vertical impact of the reference beam 3, 3 on the surfaces of the transparent bodies 8, 9, there is no or only a very small refraction of light when the reference beam 3, 3 enters the transparent body 8, 9. Furthermore, due to the refractive index matching to the substrate 7 and the recording medium 1, the orientation or the angle of incidence of the reference beam 3, 3 in the recording medium 1 and the associated substrate 7 are at least substantially maintained. This makes it possible to realize very large angles between the object beam 2 and the reference beam 3, 3 at least substantially without loss of angle or loss of efficiency.

[0038] The recording medium 1 is slidably mounted together with the substrate 7 in an x-y plane in the focal point of the reflector 4. For this purpose, suitable adjuster for moving the photosensitive recording medium 1 and the substrate 7 are provided. The substrate 7 can slide together with the recording medium 1 between the transparent bodies 8, 9. The transparent bodies 8, 9 themselves are firmly and immovably aligned with the parabolic reflector 4.

[0039] The reflector 4 takes on two functions. On the one hand it serves to focus the reference beam 3, 3 on or into the recording medium 1 and on the other hand it enables a change in the angle of incidence of the reference beam 3, 3.

[0040] For producing the edge-lit-holograms, the recording medium 1 can be positioned in the x-y plane such that the object beam 2 and the reference beam 3, 3 overlap on a first portion of the surface of the recording medium 1 so as to imprint a first sub-hologram. For this purpose, the object beam 2 is imprinted with the information pertaining to the first sub-hologram.

[0041] After reading the first sub-hologram, the recording medium 1 is displaced together with the substrate 7 in the x-y plane until the object beam 2 and the reference beam 3, 3 overlap on a second portion of the surface of the recording medium 1 so as to imprint a second sub-hologram. For this purpose, the object beam 2 is imprinted with the information pertaining to the second sub-hologram.

[0042] This way, all sub-holograms are gradually read into the recording medium 1.

[0043] The invention being thus described, it will be obvious that the same may be varied in many ways. Such variations are not to be regarded as a departure from the spirit and scope of the invention, and all such modifications as would be obvious to one skilled in the art are to be included within the scope of the following claims.