EP0779863B1 - Visually identifiable optical element - Google Patents

Abstract

So that a visually identifiable optical element, in particular a security element for value-bearing documents, for example banknotes, credit cards, passes or cheque documents, or other articles to be safeguarded, comprising a carrier with a diffusely reflecting visible surface and a metallization which is applied in a region-wise manner to the visible surface of the carrier and which has a surface that appears metallically shiny at a glancing angle is improved in such a way that an article provided with the element is even more effectively protected from forgery than is possible with known optical elements, it is proposed that the optical element is so designed that the visible surface of the carrier has two carrier regions with different levels of and in particular diffuse reflectivity for light, wherein a respective sub-region or a plurality of sub-regions of each of the two carrier regions is or are metallized, and that the reflectivity of the metallization in viewing directions outside a glancing angle range is less than the reflectivity of the carrier region with the higher level of reflectivity or substantially corresponds to same and is greater than the reflectivity of the carrier region with the lower level of reflectivity or substantially corresponds to same.

Description

The invention relates to a visually identifiable, optical element, in particular a security element for Documents of value, e.g. Banknotes, credit cards, ID cards or Check documents or other items to be secured, comprising a carrier with a particularly diffuse reflective surface and a section on the Metallization applied to the visible surface of the support one with a shiny metallic angle appearing surface.

With known optical elements, the appears Metallization before that formed by the carrier Background for metallization either bright or dark. Such an optical element is, for example, in of WO 93/01057.

The use of a carrier with a metallization as visually identifiable optical element for Security or decorative purposes, is based on the physically explicable phenomenon that from a certain direction on a smooth metal surface incident light in the form of reflected light in a particular viewing direction from an observer can be perceived. However, the light does not fall one direction, but acts it is, for example, diffuse daylight or about light from a diffuse light source, so results depending on the orientation of the metallized area to the angle of incidence of the Light a viewing angle range, in the following as Specified angle range from which a viewer is viewed the metallization as high-gloss and bright metallic perceives since much of the within the Angle of incidence reaching the metallization Light is reflected in this specular angle range. The reflectivity dependent on the viewing angle is thus in this is determined by the angle of incidence of the light Specular angle range particularly large, i.e. a lot of the reaching the unit area of the metallization Radiant power is in this specular angle range reflected. For viewing directions outside the The viewing angle appears to the viewer Metallization, on the other hand, is not shiny, but she conveys a metallic gray and matt color impression. Depending on the light reflectivity of the wearer this matt color impression appears compared to the Background either light or dark.

In the following, metallization becomes any built, especially very thin layer with a understood shiny metallic surface.

Using visually identifiable, optical Elements or security elements will be tried, even that inexperienced layperson authenticity information of the secured To make the object visible and at the same time one Counterfeiting, e.g. in the form of a reproduction, under Consideration of known counterfeiting procedures, in particular optical reproduction processes, impossible to make or at least sufficient to complicate. Such optical elements also become Used for decorative purposes.

The invention is therefore based on the object optical element of the type described above create that easily and economically is producible and with which an object to be secured can be protected against counterfeiting even more effectively than this is possible with known security elements.

This task is done with an optical element like this described at the outset was solved according to the invention by that the visible surface of the wearer has two support areas different levels, especially diffuse reflectivity for light, with a partial area or several partial areas of each of the carrier areas are metallized is or are, and that the reflectivity of the metallization in viewing directions outside of a Gloss angle range is less than the reflectivity of the Carrier area with the higher reflectivity or this essentially corresponds and is larger than that Reflectivity of the carrier area with the lower Reflectivity or this essentially corresponds.

Characterized in that the carrier in at least one area higher Light reflectivity and an area less Light reflectivity is divided and the reflectivities of these support areas and the metallization the above described relationships are sufficient, is by means of optical element conveyable to a viewer, visually perceptible information depending on the Viewing angle more diverse; so appears in one certain viewing direction outside the Gloss angle range a metallized sub-area before formed by the carrier area with higher reflectivity Background dark while another metallized Partial area in front of that of the carrier area with less Reflectivity formed background appears bright, provided the reflectivity of the metallization is smaller in the first case and in the second case is greater than the reflectivity of the each of the beam areas considered.- If the Reflectivity of the metallization in one Viewing direction outside the gloss angle range in essentially the reflectivity of the dark carrier area corresponds, i.e. if no difference with the naked eye can be determined in the reflectivity, that is the metallized sub-area of this carrier area Viewing outside of the gloss angle area before Background not or hardly noticeable. Will that Security element, however, in the by the Determine the angle of incidence of the light Considered the gloss angle range of the metallization appears the metallization opposite both carrier areas shiny metallic bright. The same applies if the Reflectivity of the metallization in one Viewing direction outside the gloss angle range essentially considers the diffuse reflectivity of the corresponds to the bright carrier area Production of the optical element according to the invention compared to the production of known elements only in not notably difficult. For example, a half of the wearer appear white, in particular with a visible surface made of diffusely reflective white Paper while the other half of the carrier is black can be colored with a negligible one Reflectivity.

The section of metallization that is on the black Area of the carrier is applied, that is to the area lower reflectivity, appears in front of this dark one Background in a matte, metallic light gray Hue. The section of the metallization which corresponds to the white support area, i.e. the support area higher Reflectivity, applied, appears before this bright one The background, however, is in a matt, metallic dark gray shade and stands out from the light Background appearing dark. If now the optical Element related to the direction of the incident Light is oriented so that a viewer can see the element or the metallized area in the aforementioned Has the gloss angle area in front of the eyes, the Section of the metallization covering the white area of the Carrier partially covered, no longer dark but brilliantly shiny and brilliantly bright. Also on the section of the carrier applied to the black area Metallization appears shiny metallic bright when he in a viewing direction within the Gloss angle range is considered. Here too changes the visually perceptible information when the orientation of the element or the viewing direction is changed.

Although by using a carrier with a white and
In a black area, the optical element according to the invention can be produced in a particularly simple and economical manner, but it can also prove to be advantageous, in particular aesthetic aspects, if the at least two areas on the visible surface of the wearer are designed differently. Within the limits of the teaching conveyed by the invention, wide variations are possible here. For example, the area of higher light reflectivity can have a light color and the area of lower reflectivity can have a dark color. It is only necessary to ensure that the relationships given above of the reflectivities of the respective surrounding areas of the carrier or of the metallization are observed. In particular, if the visible surface of the carrier area of lower reflectivity is to appear in a dark gray color tone, it is possible to design the optical element in such a way that the reflectivity of the metallization essentially corresponds to the diffuse reflectivity of the dark gray background, so that for viewing directions that are outside the gloss angle range, the metallization does not stand out from the dark gray background, but only becomes visible to a viewer when viewed within the gloss angle range.

It goes without saying that the metallization of the areas each carrier area can have any shape, also in the form of signs or symbols on the carrier can be applied.

The area metallization of the carrier areas can in simplest case by a single contiguous Section of a metal layer of any geometric shape be realized, which is the boundary between light and dark covering area applied to this is. But it is also possible that several sub-areas, especially a large number of sub-areas, the two Carrier areas are metallized; so it can Metallization forms a visually perceptible pattern be applied to the carrier. The pattern can be in shape of regularly arranged subareas geometric shape cover the carrier, being between the background of the metallized sub-areas remains visible. It can prove to be special prove advantageous that the metallization in the form of a visually perceptible halftone dot or Line grid is applied to the carrier.

By the number of means of the optical element transferable information further increase and thus Information about a secured item more effective to transmit and at the same time a forgery of the optical To complicate the element or the secured object, it proves to be advantageous if the carrier has several Has areas of the same reflectivity. This can be very can be easily realized, e.g. a square Beam or beam section through an imaginary vertical and a horizontal in four square sections is divided, each of which is on a diagonal lying sections are identical and the Form carrier area of higher or lower reflectivity. It is also understood that other conceivable divisions of the wearer in areas higher and lower Light reflectivity detected by the teaching of the invention are.

Optical elements according to the invention can also do more than two carrier areas or groups of carrier areas different reflectivity include. The relationships for the reflectivities of the individual areas and the assigned metallizations are then corresponding to apply.

In a particularly preferred embodiment of the optical element is at least one of the carrier areas with itself depending on the viewing angle varying, different levels of reflectivity educated. I.e. when changing the viewing direction, for example by swiveling the carrier around one in its plane lying axis, not only does it change the Reflectivity of the metallization, for example through transition into the gloss angle range or by leaving the Gloss angle range, but it also changes the Reflectivity of the surrounding metalization Carrier area. The visible area of the support area can for this with an optically effective thin film coating be coated for certain viewing directions for example a white one and for others Viewing directions, for example, a green appearing color impression conveyed. It is also conceivable, the visible surface of the support area by a to form a suitable coating such that for Viewing directions outside the gloss angle range the coating appears transparent and thus the Reflectivity of the wearer's field of vision underlying carrier area is determined while in a different viewing angle range, especially in Gloss angle range, the coating a colored, e.g. violet background for the metallization forms.

In a further embodiment of the invention, it is proposed instead of two spatially separated Carrier areas of different levels of reflectivity Carrier area with depending on the lighting or Viewing angle varying, of different heights To provide reflectivity and to train so that Viewing directions outside the gloss angle range the metallization exist in which the reflectivity the metallization is less than the reflectivity of the Carrier area or this corresponds substantially, and that there are other perspectives in which the Reflectivity of the metallization is greater than that Reflectivity of the carrier area or this in essentially corresponds.

That at the beginning by developing two areas of support effect caused by different levels of reflectivity, that a metallization is light and dark appears depending on the background can be considered in one as described above trained optical element by changing the Viewing angle can be brought about. That's the way it is possible to train the carrier so that in a Viewing direction outside the specular angle range Metallization compared to that of the visible surface of the Carrier-formed background appears dark and that in the metallization from another perspective the background appears bright, especially the Carrier in a different color appears than in the first mentioned direction. It is also conceivable that form optical element so that a change in Reflectivity or the color of the wearer when entering the gloss angle range of the metallization or at exit is observable from the gloss angle range.

Such effects can be varied various optically effective thin film coatings of Visible surface of the wearer can be reached. An optical one Element can thus be designed so that not only one Transition from a state with against the background dark metallization in a state with against the background of bright metallization can be achieved, but that at the same time Change in the color impression emanating from the wearer, e.g. from white to purple, is brought about.

Coatings of the carrier area are also conceivable in viewing directions outside the specular angle range of the metallization appear transparent and thus the Reflectivity of the wearer and the light / dark or dark / light contrast of the metallization in front of the carrier not or hardly influence, but in Viewing directions within the specular angle range a colored, visually perceptible background for the Form metallization.

The optical effectiveness of the carrier coating can be on known physical effects, such as extinction or superposition of light waves, are based on or chemical composition of the used for this Substances.

In a further preferred embodiment of the optical element are a diffraction in the metallization and / or structures causing interference are integrated. By including such as diffraction structures structures to be designated in the metallic shiny Area areas can also have spectral color effects in on the structure and frequencies of the incident Light in particular also diffraction angles observed outside the actual gloss angle range will. An optical element designed in this way conveys additional information and is therefore in the Even safer in terms of its counterfeiting.

In a further development of the invention proposed to design the optical element so that the Metallization a metallic shiny relief-like Structure from essentially parallel to each other extends surveys and that the valleys between the elevations give a metallic matt image impression have mediating surface structure. On consideration of such an optical element in a Direction essentially perpendicular to the linear extended surveys is the metallization within of their glossy angle range as bright metallic shine noticeable. Essentially in one viewing direction however, parallel to the linearly extended surveys affects the in the valleys between the elevations intended surface structure in the form of a matt appearing image impression. When considering the It is metallization within the gloss angle range thus possible by rotating the optical element by one axis of one running perpendicular to the carrier plane metallic impression of a shiny image metallic matt appearing picture impression or vice versa switch.

The invention also relates to a document holder of value, especially in the form of a section of a Flat material web e.g. made of paper or plastic, which in Improved in terms of its counterfeit security was that he is a security element according to the invention having. In the case of preferred security document holders, the Carrier of the security element from the Security document holder itself formed.

Figur 1:

Eine Prinzipskizze eines bekannten optischen Elementes;

Figur 2:

eine schematische Darstellung eines erfindungsgemäßen optischen Elementes;

Figur 3:

eine schematische Darstellung einer weiteren Ausführungsform des erfindungsgemäßen optischen Elementes;

Figur 4:

eine schematische Darstellung einer dritten Ausführungsform des erfindungsgemäßen optischen Elementes mit einer Metallisierung in Musterform;

Figur 5:

eine schematische Darstellung einer vierten Ausführungsform des erfindungsgemäßen optischen Elementes mit einer Metallisierung in Form von Punkt und Linienrastern;

Figur 6:

eine schematische Darstellung einer fünften Ausführungsform des erfindungsgemäßen optischen Elementes mit mehreren Trägerbereichen gleicher Reflektivität;

Figur 7:

eine schematische Darstellung einer sechsten Ausführungsform des erfindungsgemäßen optischen Elementes mit einem Trägerbereich variierender Reflektivität und mit einer Strukturen aufweisenden Metallisierung, und

Figur 8:

eine schematische Darstellung eines Wertdokumententrägers mit einem erfindungsgemäßen optischen Sicherheitselement.

Further features, advantages and details of the invention result from the attached drawing and from the following description of advantageous embodiments of the optical element according to the invention. Show it:

Figure 1:

A schematic diagram of a known optical element;

Figure 2:

a schematic representation of an optical element according to the invention;

Figure 3:

a schematic representation of a further embodiment of the optical element according to the invention;

Figure 4:

a schematic representation of a third embodiment of the optical element according to the invention with a metallization in pattern form;

Figure 5:

is a schematic representation of a fourth embodiment of the optical element according to the invention with a metallization in the form of points and line screens;

Figure 6:

a schematic representation of a fifth embodiment of the optical element according to the invention with a plurality of carrier regions of the same reflectivity;

Figure 7:

2 shows a schematic representation of a sixth embodiment of the optical element according to the invention with a carrier region of varying reflectivity and with a metallization having structures, and

Figure 8:

a schematic representation of a document holder with an optical security element according to the invention.

Figure 1 shows a generally known and overall with the reference numeral 1 designated optical element, which as Security element is used. This optical Element 1 comprises a flat carrier 2 with a Subarea 4, on the one not shown in detail Metallization 6 is applied, which consists of a homogeneous Metal layer or through metallic halftone dots that a Generate halftone image, can be formed. The carrier 2 e.g. an optically bright, diffusely reflective Visible surface 8 facing a viewer V and forms the background for the metallization 6, but also may in turn include information such as Watermarks, thin hatching etc. if light within an angle of incidence gamma of one especially diffuse light source or in the form of diffuse Daylight entering element 1 through a window or falls on the metallization 6 can within a Gloss angle alpha a large part of the incident Perceived light in the form of reflected light will. The metallization then appears high-gloss and stands out from the optically bright but diffuse reflective visible surface 8 of the carrier 2 metallic shining and appearing bright. In viewing directions outside the gloss angle range alpha conveys the Metallization 6, however, a matt, metallic dark gray hue, which is in front of the optically bright Background of carrier 2 stands out darkly.

Figure 2 shows a first embodiment of the optical element according to the invention. This includes one Beam 10, the visible surface 12 in an area 14 with high diffuse light reflectivity (sigmaT,>) and in one Area 16 with low diffuse light reflectivity (sigmaT, <) is divided. The area 14 mediates one white color impression, so reflects the frequencies of the visible spectrum alike, while the region 16 the visible light is absorbed and therefore appears black. The areas 14, 16 can in turn also provide information include. With the reference numeral 18 is a portion of the Carrier 10 indicated, on which a metallization 20 in not shown is applied. The Metallization 20 or sub-area 18 is located Half in the light area 14 and the other half in the dark area 16. The metallization 20 has one Reflectivity Sigma that is in one viewing direction outside of that explained in connection with FIG Gloss angle range is smaller than the reflectivity sigmaT, but> the area 14 with high reflectivity is higher than the reflectivity sigmaT, <the area 16 with low reflectivity. The sub-area 18 is made considered a direction that takes into account the incident light outside the gloss angle range lies, the metallization 20 appears before the bright Area 14 background dark while section the metallization 20, which is on the dark carrier region 16 is applied, appears bright. So it can be done using a and the same metallization different from each other convey optical information to a viewer will. In viewing directions within the The metallization appears opposite the gloss angle range two carrier areas 14, 16 bright because of the reflectivity a smooth metallic surface inside your Gloss angle range is greater than the reflectivity of the diffusely reflective support.

Figure 3 shows another embodiment of the optical element according to the invention, which differs from that in FIG. 2 differs in the embodiment shown, that instead of a coherent, both carrier areas covering different reflectivity areas Metallization 20 two metallized subregions 24, 26 are provided on a carrier 28, the partial area 24 within a bright carrier area 30 and the Partial area 26 within a dark carrier area 32 lies. With this optical element by means of same metallization two different ones, from spatial separated areas of the carrier outgoing visually perceptible information is transmitted. The Subregions 24, 26 can also have different shapes Have symbols.

Figure 4 shows a particularly preferred embodiment of the optical element according to the invention. The metallization is in the form of a visible surface in the case shown 34 of a carrier 36 covering regular pattern applied this. The pattern is through metallized square sections 38, which are in the manner of a Touch checkerboard pattern at the corners, trained. The Metallized sub-areas 38 appear in Viewing directions outside the gloss angle range against the light background of a carrier area 40 with high reflectivity dark. A support area 42 with has low light reflectivity in the case shown a visible surface in such a shade of gray that the metallized covering this carrier area 42 Subareas 38 in a viewing direction outside the Gloss angle area alpha from the gray background is not stand out and therefore not perceived by a viewer can be (but this is not shown here). In in this case the reflectivity corresponds to the metallization sigmaM essentially the reflectivity sigmaT, <des Carrier area 42. The carrier area 42 therefore appears gray over its entire length. That in FIG. 4 illustrated pattern can only on the carrier area 42 are perceived when the carrier area 42 in a Direction considered within the gloss angle range becomes. Such a security element can also be used by one Inexperienced laypersons can be safely handled and understood.

As can be seen from FIG. 5, the Metallization also through various forms of point or Line grids can be formed, which form a halftone image 52 produce. The halftone dots 50 are shown in FIG Fall onto a support area 54 with high Light reflectivity applied. On a carrier area 56 with low light reflectivity is a metallization in Shape of a line grid of essentially parallel mutually extending strips 58 applied. By Varying the width of the lines or strips 58 across their The longitudinal extension becomes a visually perceptible halftone image generated.

FIG. 6 shows a further preferred embodiment of the optical element according to the invention, in which a carrier 60 into several areas 62 and 64 of the same reflectivity is divided. The areas with the reference numeral 62 have lower reflectivity and therefore appear dark, while the areas 64 have a high reflectivity and as a result appear bright. In the above in Figure 6 arranged areas 62 and 64 is a metallization 66 or 68 in the form of metallic numbers combining Grid points provided. In the figure 6 below arranged carrier areas 62 and 64 is a Metallization in the form of a letter on the Carrier 60 applied. When viewing outside the The letter "D" appears before the carrier area 62 dark background bright while the letter "M" against the light background of the Carrier area 64 appears dark.

The optical elements shown in Figures 2 to 6 or the visible surfaces of the carrier areas 14, 16, 30, 42, 40 42 can by means of an optically effective thin film coating be designed so that their reflectivity in Dependence on the lighting or viewing angle changed. It is e.g. possible that the carrier area 64 of the carrier 60 shown in Figure 6 in a certain Viewing direction appears white, in another However, the viewing direction is a colored background forms for the rasterized metallization 68.

If before applying the grid-shaped metallization the shape to be metallized, the shape of the number "10" having partial area of the carrier area 64 of this Partial area darkened optically, in particular blackened, becomes, it is possible to provide the grid so that the reflectivity of the grid-shaped in the gloss angle range Metallization 68 of the reflectivity of the carrier region 64 corresponds essentially, so that in the gloss angle range the symbol represented by the grid metallization is not or hardly noticeable.

It is also conceivable in the metallized sub-areas of the optical elements shown in Figures 2 to 6 diffraction structures effective in diffraction integrate. Then it's in the diffraction angles, especially outside of the real thing Specular color effects defined by the gloss angle range observable that as additional authenticity information Difficulty counterfeiting the object to be secured.

Fig. 7 shows a further advantageous embodiment of the optical element according to the invention, in which a entire visible surface 70 of a carrier 72 forming Carrier area 74 by a suitable optically effective Thin film coating, in particular an effect pigment, see above is designed so that it is dependent on the lighting or Viewing angle a varying reflectivity having; so the carrier area 74 conveys Viewing in a first viewing direction first color impression and when viewed in a second Viewing direction a different color impression. A Section 76 of the carrier area 74 carries one Metallization 78 that is in a viewing angle range outside their gloss angle range alpha compared to Carrier area 74 appears dark in another Viewing direction, especially within your Gloss angle range, however, bright. The surface of the Metallization 78 comprises relief-like, essentially parallel and shiny metallic Elevations 80, with valleys 82 between the elevations 80 an image that gives a metallic matt impression Have surface structure 84. When considering the optical element in one direction within the Gloss angle range alpha and essentially perpendicular to appears in the linearly extended surveys Metallization 78 shiny metallic light. In one Viewing direction essentially parallel to the Elevations 80 becomes the one provided in the valleys 82 Surface structure 84 visible and thus optically effective, so that for a viewer a matt, metallic gray Image impression is conveyed.

FIG. 8 shows a document carrier 90 with a Security element 92. The document carrier 90 comprises a flat material web made of plastic, such as in particular for the production of credit cards or the like Is used, and has on its visible surface 94 a bright area 96 and a dark area appearing area 98 on by a metallization in the form of a checkered arrangement of metallized ones Subregions 100 are covered. How this works Security document carrier 90 designed according to the invention corresponds to the mode of operation in connection with the preceding figures explained optical elements.

Claims (14)

1. Visually identifiable optical element, in particular a security element for security documents, e.g. banknotes, credit cards, identity cards or cheque documents, or other articles to be safeguarded, comprising a substrate having a visible face that in in particular diffusely reflective and a metallization that is applied to parts of the visible face of the substrate and has a surface that appears to be metallically glossy at a gloss angle, characterized in that the visible face (12, 34) of the substrate (10, 28, 36) has two substrate areas (14, 16; 30, 32; 40, 42) with different levels of reflectivity, in particular diffuse reflectivity, for light, in each case one subarea (18, 24, 26) or more than one subarea (38) of each of the two substrate areas (14, 16; 30, 32; 40, 42) being metallized, and in that the reflectivity (σ_M) of the metallization, in viewing directions outside the gloss angle range (α), is lower than the reflectivity of the substrate area (14, 30, 40, 54, 64) having the higher reflectivity (σ_T>) or essentially corresponds to this reflectivity and is higher than the reflectivity of the substrate area (16, 32, 42 56) having the lower reflectivity (σ_T<) or essentially corresponds to this reflectivity.
2. Optical element according to Claim 1, characterized in that the metallization is applied to the substrate in the form of a point grid or line grid (50) that produces a visually perceptible half-tone image (52).
3. Optical element according to Claim 1 or 2, characterized in that the metallization is applied to the substrate so as to form a visually perceptible pattern, a character, a symbol or a figure.
4. Optical element according to Claim 3, characterized in that the metallization covers the substrate (36) in the form of regularly arranged rhomboidal subareas (38).
5. Optical element according to one or more of the preceding claims, characterized in that the substrate (60) has a plurality of regions (62, 64) of equal reflectivity.
6. Optical element according to one or more of the preceding claims, characterized in that the substrate has more than two areas with different levels of reflectivity.
7. Optical element according to one or more of the preceding claims, characterized in that metals with different levels of reflectivity are used for the metallization of parts of the substrate areas.
8. Optical element according to one or more of the preceding claims, characterized in that at least one of the substrate areas (14, 16; 30, 32; 40, 42) in designed with a reflectivity that varies as a function of the viewing angle.
9. Visually identifiable optical element, in partcular a security element for security documents, e.g. banknotes, credit cards, identity cards or cheque documents, or other articles to be safeguarded, comprising a substrate having a visible face that is in particular diffusely reflective and a metallization that is applied to parts of the visible face of the substrate and has a surface that appears to be metallically glossy at a gloss angle, characterized in that the visible face (70) of the substrate (72) has a substrate area (74) with a reflectivity that varies as a function of the illumination or viewing angle, and in that the substrate is designed such that there exist viewing directions outside a gloss angle range (α) in which the reflectivity (σ_M) of the metallization (78) is lower than the reflectivity (σ_T) of the substrate area (74) or essentially corresponds to this reflectivity and that there exist other viewing directions in which the reflectivity (σ_M) of the metallization (78) is higher than the reflectivity (σ_T) of the substrate area (74) or essentially corresponds to this reflectivity.
10. Optical element according to one or more of the preceding claims, characterized in that the substrate area (74) has a optically active thin-film coating.
11. Optical element according to one or more of the preceding claims, characterized in that the metallization (78) has structures effecting diffraction and/or interference integrated into it.
12. Optical element according to one or more of the preceding claims, characterized in that the metallization (78) comprises elevations (80) that are like a relief, metallically glossy and extended essentially parallel to one another, and in that the valleys (82) between the elevations have a surface structure (84) that conveys an impression of a metallically matt image.
13. Security document substrate, in particular in the form of a flat material web of paper or plastic, characterized by an optical security element (92) according to one or more of Claims 1 to 11.
14. Security document substrate according to Claim 13, characterized in that the substrate of the security element (92) is formed by the security document substrate (90) itself.

Images