EP3271191B1 - Security element - Google Patents

Description

The invention relates to a security element, a method for producing a security element and a value document with security element.

Value documents within the meaning of the invention include banknotes, stocks, bonds, certificates, vouchers, checks, air tickets, high-quality entrance tickets, labels for product security, credit or debit cards, but also other forgery-prone documents, such as passports, ID cards or other identity documents.

Value documents, in particular banknotes, are usually made from paper substrates, polymer substrates, or combinations of paper and polymer which have particular security features, such as e.g. have at least partially incorporated in the paper security thread or a watermark. As a further security feature, so-called window films, security threads, tapes can be glued / laminated or introduced onto the document of value. Security elements usually comprise as a base material a polymer or polymer compositions. Typically, security features have optically variable security features such as holograms or certain color-shift effects to provide better anti-counterfeit security. The particular advantage of optically variable security elements is that the security features on these security elements can not be imitated by mere copying with copiers, since effects of an optically variable security feature are lost due to copying or even appear only black.

In the case of existing value documents with optically variable security elements which exhibit color shift effects (color shift effects), however, it is disadvantageous that the production of the thin-film elements required for this purpose is very time-consuming and cost-intensive. For a definition and operation of thin-film elements is exemplified in the publications WO 2009 / 149831A2 and WO2011 / 032665A1 directed.

Furthermore, the introduction of additional security features such as so-called. Negative patterns or negative text in the field of Farbkippeffekte / thin-film elements consuming and often qualitatively unsatisfactory. For example, introducing negative patterns into a color-shift-effect region requires that the layers of the thin-film element leading to the color-shift effect at least partially be removed at the locations where the negative patterns are to be introduced.

In WO 2006/002756 A2 , which describes a security element according to the preamble of claim 1, the spacer layer of a thin-film element is formed by a film. The thin-film element may be arranged over a hologram. DE 10 2008 013 167 A1 shows a thin film element over a partially metallized relief structure.

It is therefore an object of the present invention to provide a method which makes it possible to produce security elements with optically variable effects with less time and expense.

It is also an object of the present invention to provide a method which makes it possible to produce security elements with optically variable effects and additional negative patterns in high quality. These objects are achieved by the subject matters of the independent claims. Preferred embodiments are defined in the dependent claims.

A first aspect of the invention relates to a security element comprising: a substrate having first and second major surfaces facing each other; an absorber layer, a dielectric layer, and a partially reflective layer disposed on the first main surface; wherein the dielectric layer is between the absorber layer and the partially reflective layer is disposed and the absorber layer is disposed between the dielectric layer and the substrate; and a contrast layer closest to the absorber layer from the partially reflecting layer, the dielectric layer and the absorber layer. The carrier material is arranged between the contrast layer and the absorber layer. The contrast layer is a layer of dark ink or a dark resist.

The carrier material may have one or more areas to be coated, in which the absorber layer, the dielectric layer and the partially reflecting layer are arranged. The carrier material is preferably a film-like material. The at least one regions to be coated is preferably arranged on a main surface of the carrier material. If the carrier material has a plurality of regions to be coated, these can be arranged only on one of the two main surfaces or on both main surfaces of the carrier material. In particular, a region to be coated may be a thin-film element region or a Colorshift region.

The area of the carrier material to be coated may have different surface shapes. For example, the area to be coated may be rectangular, oval, star-shaped or serpentine. The shape and size of the area to be coated is preferably defined or determined in a process layer. The area of the carrier material to be coated may have a surface structure and / or surface quality which differs from other areas of the carrier material. In other words, the substrate has an area defined as an area to be coated. Preferably, the absorber layer, the dielectric layer and the partially reflecting Layer arranged or applied over the whole area in the area to be coated. The absorber layer, the dielectric layer and the partially reflecting layer can be applied by means of physical vapor deposition, for example. In particular, the security element can have a relief structure. Preferably, this relief structure may be provided on / on the first main surface of the support medium. For example, the relief structure may be provided by means of a embossed embossing lacquer layer which is arranged on the first main surface of the carrier medium. Furthermore, the relief structure may be provided in the dielectric layer so that the dielectric layer does not have a constant layer thickness.

The security element can be designed as a so-called T-patch or T-LEAD, wherein the carrier medium is removed before application to a value-document substrate. Alternatively, the security element may be formed as a so-called L-patch or L-LEAD, wherein the carrier medium is connected to the value document substrate. That the carrier medium is not removed from the security element.

In particular, the layer sequence partially reflecting layer, dielectric layer and absorber layer, wherein the dielectric layer is disposed between the partially reflecting layer and the absorber layer, forms a thin layer structure with a color shift effect or a thin layer element with a color shift effect. Depending on the layer thicknesses of the partially reflective layer, the structured spacer layer and the absorber layer, see-through color effects may also be present instead of color-shift effects.

Advantageously, the security element has a protective layer which is arranged in the (entire) area to be coated. Preferably the protective layer is arranged on / on the partially reflecting layer.

The protective layer preferably comprises a protective lacquer. Alternatively or additionally, the protective layer comprises a heat sealing lacquer and / or a primer.

Preferably, the carrier material comprises a carrier film. Particularly preferably, the carrier material comprises polyethylene terephthalate (PET) and / or polypropylene (PP), particularly preferably the carrier material is PET or PP.

A security element according to this invention may in particular comprise a film or a multilayer substrate, wherein the multilayer substrate may also comprise a combination of fabric substrates and films. For example, the security element may comprise a window area which serves to fill or bridge a hole in a value document or in the paper substrate of the value document. In other words, a security window in a value document can be inserted / applied with the security element. Preferably, the area to be coated is arranged in the window area of the security element. Alternatively, the security element may be applied to a value document, for example laminated or glued. The security element may be a security thread or ribbon, window thread, patch or the like.

Advantageously, by using a partially reflecting layer in combination with a contrasting layer, the thin film element, ie the partially reflective layer, the dielectric layer and the absorber layer, can be opaque in the contrast layer areas while the thin film element is in the areas are semitransparent without contrast layer. Consequently, by structuring the contrast layer, additional information can be easily and quickly provided in the security element.

Preferably, the contrast layer is a patterned layer, i. structured contrast layer.

In particular, a structured contrast layer is to be understood as meaning that the contrast layer forms a pattern or motif that is visible to a viewer when viewing the security element.

In particular, a structured contrast layer is to be understood as meaning that the contrast layer is not arranged uniformly or over the full area at / above the absorber layer or the carrier medium. Rather, due to the structured contrast layer, there are areas / subareas in the areas to be coated in which the contrast layer is left out.

• erste Bereiche/ Abschnitte, die das Trägermaterial, die teilreflektierende Schicht, die dielektrische Schicht, die Absorberschicht und die (strukturierte) Kontrastschicht umfassen und
• zweite Bereiche/ Abschnitte, die das Trägermaterial und die teilreflektierende Schicht, die dielektrische Schicht und die Absorberschicht, aber keine (strukturierte) Kontrastschicht umfassen. In anderen Worten wird in diesem Fall die Absorberschicht von der strukturierten Kontrastschicht nur bereichsweise bedeckt bzw. sind nur in manchen Unterbereichen des zu beschichtenden Bereichs übereinander angeordnet.

After arranging the patterned contrast layer, there are two different areas or sections in the area to be coated, namely

• first regions / sections which comprise the carrier material, the partially reflecting layer, the dielectric layer, the absorber layer and the (structured) contrast layer, and
• second regions / sections comprising the substrate and the partially reflecting layer, the dielectric layer and the absorber layer, but no (structured) contrast layer. In other words, in this case the absorber layer is only partially covered by the structured contrast layer or is arranged one above the other only in some subregions of the region to be coated.

Preferably, the structured contrast layer forms a predetermined motif or pattern such as a character, a string and / or an image. This motif or pattern determines the structure of the structured contrast layer. For example, the subject may be visible or discernible to a viewer when the viewer is viewing the security element in the direction of the main surface normal or perpendicular to the first major surface of the substrate having the area to be coated.

Preferably, the contrast layer is a layer of dark ink. Alternatively, the contrast layer is a layer of a dark resist.

The structured contrast layer is preferably arranged / applied by printing in the form of a motif.

The structured contrast layer is preferably arranged by means of one or more rollers and / or cylinders. In particular, the number of rolls may vary. Depending on the speed, the rollers / cylinders can transport paint and / or paint to each other. The arrangement of the motif or the motif print is preferably carried out by a high-pressure mold.

The structured contrast layer is preferably applied by means of a flexographic printing process. Alternatively or additionally, the structured contrast layer is applied by gravure printing. Alternatively or additionally, the structured contrast layer is applied by means of inkjet printing process. Alternatively or additionally, the structured contrast layer is applied by means of offset printing. alternative or additionally, the structured contrast layer is applied by screen printing.

Further preferably, the contrast layer has a layer thickness of 1 .mu.m to 15 .mu.m, preferably 2 .mu.m to 4 .mu.m. Preferably, the layer thickness of the contrast layer is a constant layer thickness.

Preferably, the security element comprises an additional layer which is arranged between the absorber layer and the contrast layer.

Further preferably, the additional layer is a structured layer, i. an additional, structured layer, for example in the form of a pattern or motif. Further preferably, the additional layer has a constant layer thickness. The layer thickness of the additional layer is preferably in a range from 1 μm to 15 μm, preferably in the range from 1 μm to 5 μm and / or 5 μm to 10 μm and / or 10 μm to 15 μm.

Further preferably, the additional layer comprises a magnetic printing ink, a fluorescent printing or a machine-readable imprint. Further preferably, the additional layer comprises infrared-visible and / or thermochromic printing inks.

Preferably, the partially reflecting layer has a layer thickness of 50 Ǻ (5 nm) to 500 Ǻ (50 nm) (Angstrom), preferably 100 Ǻ (10 nm) to 300 Ǻ (30 nm). Further preferably, the layer thickness of the partially reflecting layer is constant. Preferably, the partially reflecting layer is a metallic layer, preferably of aluminum or an aluminum alloy.

The absorber layer preferably has a layer thickness of 30 Ǻ (0.3 nm) to 200 Ǻ (20 nm), preferably 50 Ǻ (5 nm) to 100 Ǻ (10 nm). Further preferably, the layer thickness of the absorber layer is constant. Preferably, the absorber layer is a metallic layer, preferably of chromium.

The dielectric layer preferably has an optical thickness of two quarter wavelengths (λ / 2) with respect to a wavelength of 400 nm (2 quarter wave optical thickness, 2 QWOT) to new quarter wavelengths (9λ / 4) (9 Quarter Wave Optical Thickness; 9 QWOT ) with respect to a wavelength of 700 nm, preferably, the layer thickness between 2 QWOT (2λ / 4) to 8 QWOT (8λ / 4) based on a wavelength between 400 nm and 700 nm. Preferably, the dielectric layer is transparent or translucent in the visible range.

Preferably, the layer thickness of the dielectric layer is a constant layer thickness.

The security element preferably has a reflection layer, which is arranged on the side of the contrast layer facing away from the absorber layer.

The reflection layer is preferably a structured reflection layer. Further preferably, the reflective layer and the contrast layer are identical or substantially the same structure. In other words, the reflection layer and the contrast layer have congruent areas which are free from the reflection layer and the contrast layer.

Preferably, the contrast layer is arranged between the absorber layer and the carrier material.

Preferably, the contrast layer is arranged on the second main surface of the carrier material.

• Bereitstellen eines Trägermaterials mit einer ersten und einer zweiten Hauptfläche, die einander gegenüberstehen
• Anordnen einer Absorberschicht, einer dielektrischen Schicht und einer teilreflektierende Schicht auf der ersten Hauptfläche; wobei die dielektrische Schicht zwischen der Absorberschicht und der teilreflektierenden Schicht angeordnet ist und die Absorberschicht zwischen der dielektrischen Schicht und dem Trägermaterial angeordnet ist;
• Anordnen einer Kontrastschicht, die der Absorberschicht ausgehend von der teilreflektierenden Schicht, der dielektrischen Schicht und der Absorberschicht am nächsten liegt,

wobei das Trägermaterial zwischen der Kontrastschicht und der Absorberschicht angeordnet ist, und wobei die Kontrastschicht eine Schicht aus dunkler Druckfarbe oder aus einem dunklen Resistlack ist.A further aspect relates to a method for producing a security element comprising the steps:

• Providing a substrate having first and second major surfaces facing each other
• Arranging an absorber layer, a dielectric layer and a partially reflecting layer on the first main surface; wherein the dielectric layer is disposed between the absorber layer and the partially reflective layer and the absorber layer is disposed between the dielectric layer and the substrate;
• Arranging a contrast layer closest to the absorber layer from the partially reflecting layer, the dielectric layer and the absorber layer,

wherein the carrier material is disposed between the contrast layer and the absorber layer, and wherein the contrast layer is a layer of dark ink or a dark resist.

In particular, the method comprises suitable method steps for producing a security element having one or more of the aspects or properties described above.

Preferably, the contrast layer is a structured layer.

Preferably, the contrast layer comprises a layer of dark ink. Alternatively or additionally, the contrast layer comprises a layer of a dark resist.

A further aspect relates to a value document, in particular a banknote, having a value document substrate and at least one security element which comprises one or more of the aspects described above.

A security element is preferably placed on or in a value document substrate. A value document substrate may comprise paper, polymer or a paper-polymer combination. In the case of a banknote made of polymer or a paper-polymer combination as a value-document substrate, the carrier material of the security element may be a subarea of the value-document substrate. For example, the value document substrate may be a polymer film and the support material of the security element is a portion of this polymer film.

If the security element is embedded in a value document, the top side and the bottom side of the security element preferably run (substantially) parallel to the top side and bottom side of the value document substrate. The top and bottom of the value document as well as the security element may also be referred to as major surfaces. These main surfaces represent relevant information to a viewer. Consequently, the main surfaces are visible to a viewer who views a value document with a security element. For example, a major surface of a bill may represent the value of the bill as well as its serial number. Accordingly, an upper and lower side of a security element as well as a value document can also be regarded as the first and second main areas.

The invention will be explained below with reference to preferred embodiments in conjunction with the accompanying figures, in the representation dispensed with a scale and proportionate reproduction was to increase the vividness.

Fig. 1a, 1b

eine schematische Darstellung eines Wertdokuments mit einem Sicherheitselement;

Fig. 2

eine schematische Schnittdarstellung eines Sicherheitselements gemäß einer Variante;

Fig. 3

eine schematische Schnittdarstellung eines Sicherheitselements gemäß einer weiteren Variante;

Fig. 4

eine schematische Schnittdarstellung eines Sicherheitselements gemäß einer weiteren Variante;

Fig. 5

eine schematische Schnittdarstellung eines Sicherheitselements gemäß einer weiteren Variante;

Show it:

Fig. 1a, 1b

a schematic representation of a value document with a security element;

Fig. 2

a schematic sectional view of a security element according to a variant;

Fig. 3

a schematic sectional view of a security element according to another variant;

Fig. 4

a schematic sectional view of a security element according to another variant;

Fig. 5

a schematic sectional view of a security element according to another variant;

FIGS. 1a and 1b each show a schematic plan view of a main surface of a value document 100 with a value document substrate 102 and a security element 104, wherein the security element 104 is fixedly connected to the value document substrate 102, for. B. embedded in the value document substrate 102 or applied to the value document substrate. The security element 104 may also be a subarea of the value document substrate 102. The security element 104 has an area defined as area to be coated 106. The region 106 to be coated is preferably a color shift or thin-film element region which has a partially-reflecting layer, an absorber layer and a dielectric layer. The region 106 to be coated has a contrast layer-free region 108 and a contrast layer region 110.

FIG. 1a shows the number 45 as the contrast layer-free area 108a. FIG. 1b shows three stripes as the contrast layer-free area 108b. A contrast layer-free area may further have any shape or configuration. For example, a contrast layer-free area could be in the shape of a church or an animal. Preferably, a contrast-layer-free area allows a viewer to see the contrast-layer-free area in plan view and / or in view. The security element is preferably more transparent in the contrast layer-free region than in the contrast layer region or at least semitransparent, so that at least part of the light striking the security element is transmitted in the contrast layer-free region. The security element 104 comprises a carrier material which preferably consists of polyethylene terephthalate (PET) and has a region 106 to be coated. The contrast layer region 110, which is a subregion or partial region of the region 106 to be coated, comprises at least a partially reflecting layer, a dielectric layer and at least one absorber layer. The contrast layer-free area 108 has at least no contrast layer compared to the contrast layer area 110. Accordingly, it is clearly evident that the contrast layer is not present over the entire surface or uniformly in the region 106 to be coated, but only / exclusively in the contrast layer region 110. In other words, the contrast layer is present as a structured contrast layer.

The structure of a region to be coated 108 with contrast layer region 110 and contrast layer-free region 108 will be described below with the aid of FIGS. 2 to 5 explained in more detail.

Fig. 2 shows the sectional view of a security element 200 with a carrier material 201. The carrier material 201 has a first main surface HF1a and a second major surface HF2a. An absorber layer 202 is arranged on the main surface HF1a of the carrier material. A dielectric layer 203 is disposed on the absorber layer 202. At the dielectric layer 203, a partially reflecting layer 204 is arranged. A structured contrast layer 205 is arranged on the second main surface HF2a of the carrier material 201. By structuring the contrast layer 205, contrast layer-free regions 206 form. In particular, the in Fig. 2 shown sectional view of a section through the "4" along the line II according to Fig. 1a or a part along the line II-II according to Fig. 1b correspond.

Fig. 3 shows a security element 300 having a (first) substrate 301a with a first major surface HF1a and a second major surface HF2a. This sectional view may, for example, be a part of a sectional view along the line II, as in FIG Fig. 1a shown, or along the section line II-II according to Fig. 1b correspond. Fig. 3 shows a partially reflective layer 304, a dielectric layer 303 and an absorber layer 302. These three layers 304, 303 and 302 are disposed on the first major surface HF1a of the (first) substrate 301a. The security element 300 additionally has a second carrier material 301b, which has a first main surface HF1b. A structured contrast layer 305 is arranged on the first main surface HF1b, so that contrast-layer-free regions 306 result. Furthermore, the security element 300 has an additional structured layer 308. The additional patterned layer 308 may be, for example, a layer of magnetic ink. The security element 300 results from joining together the (first) carrier material 301a and the (second) carrier material 301b. Preferably, the (first) substrate 301a and the (second) substrate 301b are assembled after arranging the layers 308 and 305. For example, you can the carrier materials 301a and 301b are joined together by an adhesive layer 307. A structure thus results, wherein the additional structured layer 308 and the structured contrast layer 305 are arranged on / on the second main surface HF2a of the (first) carrier material 301a.

Fig. 4 shows the sectional view of a security element 400 with a carrier material 401 a. The (first) substrate 401a has a first major surface HF1a and a second major surface HF2a. Arranged on or on the first main surface HF1a is a contrast layer 405, which may be a structured contrast layer with contrast layer-free regions 406. An additional structured layer 408 is disposed on / on the contrast layer 405. Over or on the additional structured layer 408, an absorber layer 402, a dielectric layer 403 and a partially reflecting layer 404 are arranged. At or above the partially reflecting layer 404, a (second) carrier material 401b is arranged. In the production of the security element 400, for example, the first main surface HF1a of the (first) carrier material 401a may be coated with the contrast layer 405 and the additional layer 408. In a further step, the second main surface HF2b of the (second) carrier material 401b can be coated with the layers 404, 403 and 402. In a further step, the second main surface HF2b of the (second) carrier material 401b and the first main surface HF1a of the (first) carrier material 401a can then be connected to one another. For example, an adhesive layer 407 can be used for this purpose.

FIG. 5 shows a schematic sectional view of a security element 500 with a carrier material 501a. The (first) substrate 501a has a first major surface HF1a and a second major surface HF2a. On or on of the first main surface HF1a, an absorber layer 502, a dielectric layer 503 and a partially reflecting layer 504 are arranged. An additional layer 508 and a contrast layer 505 are arranged on the second main surface HF2b of the (first) carrier material 501a. Furthermore, a reflection layer 507 is disposed on the contrast layer 505. This reflection layer 507 can be produced by printing or by vapor deposition. At the reflection layer 507, a (second) substrate 501b is arranged. The reflection layer 507 and the contrast layer 505 preferably have the same patterning. Thus, contrast-layer-free regions 506 are at the same time reflection-layer-free regions. In the production of the security element 500, for example, the first main surface HF1a of the (first) carrier material 501a can be coated with the layers 502, 503 and 504. In a further step, the first main surface HF2a of the (second) carrier material 501b can be coated with the additional layer 508, the contrast layer 505 and the reflection layer 507. In a further step, the first main surface HF1b of the (second) carrier material 501b and the second main surface HF2a of the (first) carrier material 501a can then be connected to one another. For example, an adhesive layer 509 can be used for this purpose.

Advantageously, a viewer of the security elements 200, 300, 400 and 500 can perceive a homogeneous color shift effect in the region 106 to be coated when viewed in reflected light, while the viewer can advantageously see the contrast layer-free regions 206, 306, 406 and 506, respectively, when viewed in transmitted light in the form of patterns, signs or motifs.

LIST OF REFERENCE NUMBERS

100

value document

102

Value document substrate

104

security element

106

area to be coated

108

Contrast layer-free area

110

Contrast layer region

200, 300, 400, 500

security element

201, 301a, 401a, 501a

(first) carrier material

301b, 401b, 501b

(second) carrier material

202, 302, 402, 502

absorber layer

203, 303, 403, 503

dielectric layer

204, 304, 404, 504

partially reflecting layer

205, 305, 405, 505

contrast layer

206, 306, 406, 506

Contrast layer-free area

308, 408, 508

additional layer

HF1a, HF1b

1. Main surface of the (first or second) carrier material

HF2a, HF2b

2. Main surface of the (first or second) carrier material

Claims (14)

1. A security element (200; 300; 500) comprising:

   a carrier material (201; 301a; 501a) which has a first and a second principal face which oppose each other,

   an absorber layer (202; 302; 502), a dielectric layer (203; 303; 503) and a partially reflecting layer (204; 304; 504) which are arranged on the first principal face,

   wherein the dielectric layer (203; 303; 503) is arranged between the absorber layer (202; 302; 502) and the partially reflecting layer (204; 304; 504), and the absorber layer (202; 302; 502) is arranged between the dielectric layer (203; 303; 503) and the carrier material (201; 301a; 501a); and

   a contrast layer (205; 305; 505) which lies nearest the absorber layer (202; 302; 502) starting out from the partially reflecting layer (204; 304; 504), the dielectric layer (203; 303; 503) and the absorber layer (202; 302; 502);

   wherein the carrier material (201; 301a; 501a) is arranged between the contrast layer (205; 305; 505) and the absorber layer (202; 302; 502); characterized in that the contrast layer (205; 305; 505) is a layer of dark printing ink or of a dark resist lacquer.
2. The security element according to claim 1, wherein the contrast layer (205; 305; 505) is a structured layer; and/or the contrast layer (205; 305; 505) has a layer thickness of 1 µm to 15 µm, preferably 2 µm to 4 µm.
3. The security element according to either of claims 1 or 2, wherein an additional layer (308, 508) is arranged between the absorber layer (202; 302; 502) and the contrast layer (205; 305; 505), wherein the additional layer is preferably a structured layer and preferably has a (constant) layer thickness of 1 µm to 15 µm.
4. The security element according to one or several of claims 1 to 3, wherein the partially reflecting layer (204; 304; 504) has a layer thickness of 5 nm to 50 nm, preferably 10 nm to 30 nm, and is preferably a metallic layer.
5. The security element according to one or several of claims 1 to 4, wherein the absorber layer (202; 302; 502) has a layer thickness of 0.3 nm to 20 nm, preferably 5 nm to 10 nm, and is preferably a metallic layer.
6. The security element according to one or several of claims 1 to 5, wherein the dielectric layer (203; 303; 503) has an optical thickness of two quarter wavelengths in relation to a wavelength of 400 nm to nine quarter wavelengths in relation to a wavelength of 700 nm, preferably between two to eight quarter wavelengths in relation to a wavelength between 400 nm and 700 nm, and is preferably a transparent or translucent layer in the visible range.
7. The security element according to one or several of claims 1 to 6, wherein a reflective layer (507) is arranged on the side of the contrast layer (205; 305; 505) facing away from the absorber layer (202; 302; 502).
8. The security element according to one or several of claims 1 to 7, wherein the contrast layer (205) is arranged on the second principal face of the carrier material (201).
9. The security element according to one or several of claims 1 to 7, wherein the security element (200; 300; 500) comprises a second carrier material (301b; 501b), wherein the contrast layer (305; 505) is arranged between the first carrier material (201; 301a; 501a) and the second carrier material (301b; 501b).
10. The security element according to claim 9, wherein
    the contrast layer (305) is arranged on a first principal face of the second carrier material (301b) or
    a reflective layer (507) is arranged on the first principal face of the second carrier material (501b) and the contrast layer (505) is arranged on the reflective layer (507).
11. A method for manufacturing a security element, comprising the steps of:

    - supplying a carrier material (201; 301a; 501a) with a first and a second principal face which oppose each other,

    - arranging an absorber layer (202; 302; 502), a dielectric layer (203; 303; 503) and a partially reflecting layer (204; 304; 504) on the first principal face; wherein the dielectric layer (203; 303; 503) is arranged between the absorber layer (202; 302; 502) and the partially reflecting layer, and the absorber layer (202; 302; 502) is arranged between the dielectric layer (203; 303; 503) and the carrier material (201; 301a; 501a);

    - arranging a contrast layer which lies nearest the absorber layer (202; 302; 502) starting out from the partially reflecting layer (204; 304; 504), the dielectric layer (203; 303; 503) and the absorber layer (202; 302; 502),

    wherein the carrier material (201; 301a; 501a) is arranged between the contrast layer (205; 305; 505) and the absorber layer (202; 302; 502), and wherein the contrast layer (205; 305; 505) is a layer of dark printing ink or of a dark resist lacquer.
12. The method according to claim 11, wherein the contrast layer (205; 305; 505) is a structured layer.
13. The method according to claim 11 for manufacturing a security element according to any of claims 2 to 10.
14. A value document (100), in particular a banknote, with a value document substrate and at least one security element (200; 300; 500) according to one or several of claims 1 to 10.

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