Optical: systems and elements – Holographic system or element – Authentication
Reexamination Certificate
2002-04-25
2004-06-08
Dunn, Drew (Department: 2872)
Optical: systems and elements
Holographic system or element
Authentication
C359S001000, C359S003000, C359S024000, C283S086000
Reexamination Certificate
active
06747768
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The invention concerns an information carrier, in which information is contained in the form of a hologram.
2. Discussion of the Background Art
Such information carriers frequently serve as security seals, for example, for characterizing trademark products (electronic components, computer components, pharmaceutical products, image, audio and data media, clothing articles, etc.). There is also a requirement for security against counterfeiting in the case of bank notes. For this purpose, information is introduced onto an information carrier in the form of a hologram by means of appropriate and expensive methods. This information then cannot simply be copied by means of a conventional copying machine (e.g., for copying printed paper) onto another information carrier.
Frequently, information is stored either in the form of a transmission hologram or in the form of a reflection hologram, on pieces of foil that are in turn glued onto products for purposes of protection against copying. These so-called security seals serve for authenticating the marketed product. Depending on the angle of lighting and the viewing angle each time, the observer perceives different colors, patterns and motifs. The construction of these foil layers and the technical expenditure in their production offer a meaningful protection against simple copying and thus marketing of counterfeit products with the copied security seal. A copying of film holograms or volume holograms, which have stored the information in a high-resolution photo layer, can basically be accomplished only with expensive laser equipment, which can supply the coherent light that is necessary and sufficient for copying.
In the case of the known information carriers with holograms, despite the measures taken, there is always a need to further increase the protection against copying.
SUMMARY OF THE INVENTION
The object of the invention is to create an information carrier of the type named initially with increased copy protection and/or an additional easily recognizable security feature.
The invention solves this object with the subject of claim
1
.
Preferred examples of embodiment of the invention are described in the dependent claims
2
to
9
. In addition, preferred methods for the production of such information carriers according to the invention are described in claims
10
to
14
.
According to claim
1
, the hologram in an information carrier of the type named initially is the combination of a transmission hologram and a reflection hologram.
The information carrier may be comprised, among other things, of any of the initially named materials, for example, a foil (e.g., in the form of a security seal) or a more solid-type material, which is partially transparent upon examination, or contains the combination of a transmission hologram and a reflection hologram in at least one intermediate layer lying inside the material. The information carrier may also be part of a larger design of information carriers, which comprise, for example, collateral sheets, bank notes, credit cards, packagings, labels, images, etc., with additional printing. Additional information, which is for the most part visible (i.e. can be read or presented with light in the optically visible region) can also be printed or otherwise introduced onto these materials. However, information in the optically invisible range can also be contained therein (e.g., information that can be read with UV or IR light).
In addition, the information contained in the respective type of hologram (transmission or reflection hologram) can be stored in an optically visible manner (i.e. recognizable upon irradiation with visible light) or in an invisible manner (e.g., recognizable only upon irradiation with UV light or IR light). The information itself may be contained as a three-dimensional hologram (volumetric reproduction of an object in a complete three-dimensional reproduction), a two-dimensional/three-dimensional hologram (flat motif with a three-dimensional background), two-dimensional hologram (flat graphic), etc.
The information may also comprise purely geometric or irregular, (apparently) random patterns. For example, the transmission hologram may contain information in the form of one or more uniform surfaces, which iridesce, for example, only in rainbow colors upon irradiation with white light. This “play on colors” represents information in the sense of the invention.
Basically, holographically stored information of film or volume holograms is meaningfully protected from copying, since coherent light sources must be used for such copying. In addition, the combination of the two hologram types into one hologram according to the invention offers the following additional advantages: either one or the other or both holograms appear each time depending on the lighting (from the front or from the back) with respect to the information carrier, or depending on the angle of lighting and the angle of viewing when a reflector-type transmission hologram or raised hologram is used in combination with the reflection hologram. The two types of holograms can be clearly differentiated from one another on the basis of their characteristic apparent images, so that, in principle, it is not possible to imitate the “motif” of one type of hologram by an identical pattern in the form of the other type of hologram. One of the hologram types can thus serve as the “watermark” for the other type of hologram. Thus, e.g., with normal viewing, only one type of hologram may be visible, while the other appears only under specific conditions (depending on the light wavelength or the angle of incidence of the reconstruction light, etc.), which are known only to the initiated. Copying is made even more difficult, since the two types of holograms must be copied in different ways each time. Thus, for example, the “concealed” type of hologram is not automatically copied when the visible type of hologram is copied, so that the copy no longer contains the “concealed” hologram type.
According to a first example of embodiment, the combination of the two types of holograms preferably consists of the fact that the transmission hologram and the reflection hologram are contained in two separate hologram layers, wherein the two hologram layers are arranged one on top of the other, and at least one hologram layer is transparent. Also, with this layering of two hologram layers, both types of hologram appear simultaneously, as long as the upper layer of the hologram lying closer to the readout side of the information carrier is transparent.
According to a second example of embodiment, the combination consists of the fact that the transmission hologram and the reflection hologram are contained together in a single hologram layer. For the production of such an information carrier, preferably both types of holograms are recorded simultaneously or the transmission hologram is recorded first and then the reflection hologram, or vice versa. Alternatively, in the production of the information carrier according to the second example of embodiment, the transmission hologram and the reflection hologram can be recorded by alternating pixels or alternating lines. This pixel-type or line-type recording can be produced preferably either by means of an appropriate mask, wherein the transmission hologram and the reflection hologram are then recorded sequentially in time, or by means of a controlled light beam.
The reflection hologram is preferably designed in such a way that it serves for a one-color, multi-color or true-color illumination of the transmission hologram. Advantageously, nearly any type of transmission hologram (not only in the form of rainbow holograms, among other types) can be rendered in a true-color manner also with sufficiently sharp contrast.
If the carrier material of the information carrier is not light-transparent, a layer is provided that back-reflects light into the hologram layer or layers on one side of the two hologram layers or the single hologram layer. The ligh
Ebert Dieter
Knocke Frank
Assaf Fayez
Dunn Drew
Ohlandt Greeley Ruggiero & Perle
Xetos AG
LandOfFree
Information carrier with a hologram does not yet have a rating. At this time, there are no reviews or comments for this patent.
If you have personal experience with Information carrier with a hologram, we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Information carrier with a hologram will most certainly appreciate the feedback.
Profile ID: LFUS-PAI-O-3356454