DE102006015608A1 - Method and apparatus for reading a computer generated hologram - Google Patents

Abstract

Method for reading out a computer-generated hologram,
In which a reading beam is generated with a laser,
characterized,
- That with the help of a diffuser the reading beam is scattered and
- That the surface of the hologram is illuminated only with a part of the scattered reading beam.

Description

The The invention relates to a method for reading out a computer-generated Hologram and a device for reading a computer-generated Hologram.

Computer-generated holograms consist of one or more layers of dot matrices or point distributions which, when illuminated with a preferably coherent light beam, lead to a reconstruction of the information encoded in the hologram. The point distribution can be calculated here as an amplitude hologram, phase hologram or as a Kinoform Fresnel or Fourier hologram or another computer-calculated holographic form. For the production of computer-generated holograms, these are first calculated and then written with a suitable writing device by point-wise introduction of energy into a storage medium. The resolution of the resulting dot matrix can, as already mentioned, be in the range below 1 μm. Thus, holograms with a high resolution can be written in a small space, the information of which can only be read out by illuminating with a light beam and reconstructing the diffraction image. The size of the holograms can be between less than 1 mm ² and several 1 cm ² .

One greater The advantage of the computer-generated holograms is that each one Holgram without big Effort can be calculated individually. Thus, in Series holograms are generated, for example, continuous Include numbers or production parameters. Such holograms can therefore especially as security features or in logistics for product tracking on packaging, credit cards, entrance tickets or similar be used. With a suitable reading device, the Security features of the hologram are read out and the authenticity and individuality of the security feature can be easily checked.

The previously described computer generated holograms can with directly visible information (microfilm, Micrographs). In addition, you can with a microstructuring mentioned above, the micro images mentioned and Micro-writings independently written by computer-generated holograms. The point distributions can are also generated as Dotmatrixhologramme, each individual small surface sections as different diffraction structures of the dot matrix hologram be generated. Besides, it is also possible with the microstructuring to produce a diffractive optical element (DOE) per se.

If in the following the writing or reading with a light beam described is usually a laser beam in the visible wavelength range meant. Nevertheless, the present invention is not limited to the application limited to visible light. In principle, the invention with electromagnetic radiation in a wide wavelength range be applied.

Out The prior art further includes a plurality of writing devices known for writing computer generated holograms in flat storage media enroll the optical structures of the holgrams. By way of example, reference is made to the publications WO 02/079881, WO 02/079883, WO 02/084404, WO 02/084405 and WO 03/012549. These writing devices use a laser beam, which successively every single point Scans the dot matrix and optionally light energy into the storage medium or not.

Likewise, a plurality of reading devices are known, which are suitable for illuminating the hologram surface by means of a light beam and a suitable optical system to make the reconstruction visible or electronically representable and evaluable by means of recording means. By way of example, reference is made to the documents DE 101 37 832 , WO 02/084588 and WO 2005/111913.

The The present invention relates to reading on a storage medium inscribed transmission holograms whose area with a Reading beam of a light source is illuminated. That of the structure the hologram diffracted light field is behind in the beam direction detected the storage medium, wherein in a simple embodiment a person simply looks into the beam and the reconstruction of the hologram is imaged on the retina of the person.

there But there is always the problem that the human Eye sufficient from excessive light intensity, in particular must be protected when using lasers.

Of the The present invention is therefore based on the technical problem to specify a particularly simple and inexpensive method the observer is adequately protected from excessive light intensities.

The above-mentioned technical problem is solved according to the invention by a method for reading out a computer-generated hologram in which a laser is generated in reading beam by scattering the reading beam with the aid of a diffusing screen and the surface of the hologram is scattered only with a part of the scattered hologram harvest beam is illuminated.

By the scattering by means of the diffuser becomes the intensity of the laser light, that on the hologram surface reduced, because a part, preferably a larger part of the laser light is scattered out of the beam path through the lens and only one, preferably small part of the laser light on the hologram surface incident. By indirect viewing on a lens is then the light field of the reconstruction sufficiently weak, so that a Person without further protective measures the reconstruction with mere Eye and without further optics in transmission can observe.

In preferably can even lasers with a power of up to 10 mW can be used they are not for that are suitable, the laser beam thus generated with the naked eye to look directly at.

The The above-indicated technical problem according to the invention also by a method of reading a computer-generated hologram, in which a reading beam is generated by a light source, achieved by using the light source, a light beam with a non-coherent light is generated and that the area of the hologram only with the non-coherent light of the reading beam at least partially illuminated.

By the lack of coherence While it still comes to the necessary for the reconstruction Diffraction on the structure of the hologram, however, is the spectral Energy density of the reading beam is not as high as in a laser. The reason lies in the increased frequency distribution of the light opposite the laser light, the same or lower power to a lower power density leads.

In Preferably, the light has a frequency spectrum, the much larger than, preferably at least 50 times larger than the frequency spectrum of a Lasers is. Such a light is preferably by a light-emitting Diode (LED) generated. Thus, you can inexpensive light sources such as light emitting diodes are used to be able to read holograms.

Consequently can be the reconstruction of the hologram of a person without further Optics are observed in transmission. A special eye protection is not necessary because of the low energy density of the light.

in the The invention will be described below on the basis of exemplary embodiments Devices and illustrated by examples of reconstructions, including on the attached Drawing reference is made. In the drawing show

1 the structure of a first device according to the invention for reading a computer-generated transmission hologram with a laser and a lens,

2 a representation of a means of in 1 illustrated device generated reconstruction,

3 the construction of a second device according to the invention for reading out a computer-generated transmission hologram with a monochromatic LED (light-emitting diode),

4 a representation of a means of in 3 illustrated device generated using a blue light emitting diode,

5 a representation of a means of in 3 illustrated device generated reconstruction using a green light emitting diode and

6 a representation of a means of in 1 illustrated device generated when using a white light emitting diode.

1 shows the optical structure of a first device according to the invention. With the help of a laser 2 becomes a laser beam 4 generated by means of a arranged in the beam path lens 6 is scattered in a certain angular range. As a result, the power of the laser light is distributed over a larger area of space.

A storage medium 8th with an attached or inscribed computer generated hologram 10 Due to the scattering of the laser light, only a small part of the laser power is detected. Thus, a person does not need to make special protection of the eye and can observe the reconstruction, even if the laser beam 4 in itself has a much too great intensity to observe it directly with the eye. Thus, commercially available lasers with output powers of up to 10 mW can also be used.

2 shows a reproduction of the number sequence 12345 as information contained hologram. Despite the scatter, a clear reconstruction can be observed.

3 shows the structure of a second device according to the invention. A light-emitting diode 11 creates a ray of light, with which one on a spei chermedium 9 arranged computer generated hologram 10 is illuminated. The light field thus generated in transmission can be directly from an observer with the naked eye 8th to be watched. Because the output power of the light beam is not too large, even without an intermediate hologram, to be observed directly with the eye.

Due to the larger spectral distribution of the light generated by a light emitting diode but it comes to different diffraction direction for different frequencies of light, so a chromatic aberration. This is done by the 4 to 6 clarified.

A hologram also containing the information of the number sequence 12345 is first illuminated with a blue light-emitting diode. The resulting reconstruction, along with the zeroth order (light spot in the lower half of the image as a reference), is an orientation in 4 shown.

5 shows the reconstruction of the same hologram with a green light emitting diode, compared to 4 an increase proportional to the increase in the wavelength and thus a shift of the reconstruction relative to the zeroth order upwards takes place.

6 then shows the reconstruction of the same hologram using a white light emitting diode. The reconstruction of the 12345 series is heavily blurred due to chromatic aberration.

The effect of in the 4 to 6 shown chromatic aberration is exaggerated because a single colored light emitting diode has a much narrower frequency spectrum than the distance between the colors blue ( 4 ) and green ( 5 ) having.

is So the frequency distribution is lower, but still much larger than at a laser, leads this due to the chromatic aberration to a smearing the reconstruction, especially with small details of the reconstruction disadvantageous is. Again, because the chromatic aberration is greater, the bigger the Diffraction angle is, so the larger the Distance from the zeroth order, can be used in the calculation of the computer generated This hologram will be considered in this that the information to be reconstructed only in one area of Reconstruction is included, which is a certain distance to zeroth Does not exceed order. As a result, the resulting from the chromatic aberration Smearing further reduced.

One another reason for the smearing of the reconstruction, which is also dependent on the angle, is that the light-emitting diode, a larger extension of the light-generating area compared to a more punctiform laser source. Thereby will be a worse spatial resolution of the reading beam when using a light emitting diode as compared to a laser diode accepted. The worse spatial resolution can in the calculation of the hologram in the same way as described above has been taken into account be only a limited Area of the reconstruction area is used.

Claims (8)

Method for reading out a computer-generated hologram, in which a reading beam is generated by a laser, characterized in that the reading beam is scattered with the aid of a diffusing screen, and that the surface of the hologram is illuminated only with a part of the scattered reading beam. The method of claim 1, wherein the reconstruction the hologram of a person without further optics in transmission is observed. Method according to Claim 1 or 2, in which a laser with a power of up to 10 mW is used. Method for reading out a computer-generated hologram, - at a reading beam is generated from a light source, thereby in - that using the light source, a light beam with a non-coherent light is generated and - that the area the hologram only with the non-coherent light the reading beam is at least partially illuminated. The method of claim 4, wherein the light is on Frequency spectrum, the larger, preferably substantially greater than, preferably at least 50 times larger than the frequency spectrum of a laser is. A method according to claim 4 or 5, wherein as the light source a light emitting diode (LED) is used. A method according to claim 4, 5 or 6, wherein the Reconstruction of the hologram of a person without further optics is observed in transmission. Method for calculating the reconstruction of the hologram in the form that the reconstruction near both zeros order lies and thus experiences only a slight chromatic decomposition.