WO2015187060A1

WO2015187060A1 - Product containing a carrier with protective markings, and method for determining the authenticity of a product

Info

Publication number: WO2015187060A1
Application number: PCT/RU2015/000340
Authority: WO
Inventors: Аркадий Владимирович ТРАЧУК; Андрей Борисович КУРЯТНИКОВ; Игорь Васильевич ПАВЛОВ; Александр Игоревич МОЧАЛОВ; Алексей Витальевич САЛУНИН; Георгий Валентинович КОРНИЛОВ; Александр Михайлович ШИРИМОВ; Анатолий Павлович ГУБАРЕВ; Виктор Андреевич ВОРОБЬЕВ; Ошир Яизгилович МАНАШИРОВ
Original assignee: Федеральное Государственное Унитарное Предприятие "Гознак" (Фгуп "Гознак")
Priority date: 2014-06-02
Filing date: 2015-05-28
Publication date: 2015-12-10
Also published as: EP3150763A4; RU2561073C1; EP3150763A1

Abstract

The invention relates to the field of protecting products against counterfeiting and is intended for determining, using an instrument, the authenticity of printed products to be protected, such as banknotes and securities forms, labels, excise stamps and postage stamps, payment and identification documents, and also passports and travel documents. The aim and technical solution of the proposed invention consist in creating a product containing protective markings which are based on a composite material having a set combination of magnetic and optical characteristics, wherein the optical characteristics are temperature dependent and the magnetic characteristics provide for the induction heating of the material only in the presence of an alternating magnetic field having certain parameters. The proposed technical solutions and methods for monitoring authenticity provide for a high level of counterfeiting protection for a valuable document.

Description

PRODUCT CONTAINING PROTECTED LABELING MEDIA AND METHOD FOR DETERMINING

AUTHENTICITY OF THE PRODUCT Field of technology

The invention relates to the field of protection of products from counterfeiting and is intended for instrumental determination of the authenticity of protected printing products, such as banknotes and letterhead paper, labels, excise and postage stamps, payment and identification documents, as well as passports and travel documents.

State of the art

Recently, with increasing competition among manufacturers of security printing products, as well as a steady increase in the technical capabilities of potential counterfeiters, complex security features have become increasingly relevant. By such protective features it is customary to understand technical solutions in which, during instrument control, authenticity is checked not one but two or more parameters related in a specified way, or a certain reaction to two or more simultaneously specified actions is evaluated.

In the case under consideration, the complex impact refers to the impact of two dissimilar T RU2015 / 000340

2 fields, for example, a magnetic field of a given intensity and frequency, and an optical field - pump radiation (exciting radiation).

Examples of such complex effects include the dependence of the UV luminescence of a substance on the temperature applied to it, or the angle of rotation of the plane of polarization of linearly polarized radiation under the influence of an external electric field, or a reversible color change of a substance under the influence of heat and light.

On the other hand, one of the most effective and technically feasible solutions for checking the authenticity of banknotes and valuable documents is the use of bright and unusual visual security features (“Strike & Attractive)) based on various visual effects. The advantages of this approach are the simplicity of determining the authenticity of the population and cash workers, high control performance and a high achieved level of security.

Typically, such visual effects include the effects of movement of a graphic object, the effect of changing the shape and size of a given object, the effect of changing its color, the effect of pulsation or dynamic change in brightness, or the effect of volume (stereoscopy). In some cases, it is allowed to use simple and inexpensive devices called visualizers to observe such visual effects. Such visualizers include various UV lamps, IR visualizers, polarizing filters, etc.

Due to the above advantages, visualized and, in particular, machine-readable security features are widely used in the field of protection against fakes, especially in the field of authentication at the so-called banking and cash level.

The difficulty of creating such features often lies in the need to reliably evaluate the parameters of interest of the characteristic under heterogeneous exposure under conditions of a limited time interval, or with a small content of the measured substance with the simultaneous presence of interfering factors (interference), i.e., with a small signal to noise ratio, as well as insufficient speed the course of such processes (inertia), which makes it difficult to control at high speed.

On the other hand, to complicate the chemical and / or elemental control of substances included in the protective label, it is necessary to minimize their weight (percentage) amount in the total composition. In addition, a frequent requirement for protective features for instrumentation and machine-based authentication is their stealth, that is, the difficulty of detection by commonly available methods. In this regard, the practical interest for creating complex security features is primarily represented by solutions that do not exhibit their properties in the visible range of the spectrum, which significantly complicates the solution of the problem.

These contradictions, and a wide range of generally available substances known from the prior art and available on the market, determine the need to search for and create new protective features of an integrated principle of action.

The proposed solution is based on the joint use of such well-known physical phenomena as induction heating, the loss of magnetic properties of materials at temperatures above the Curie point, and thermal quenching of luminescence.

The solution is based on the use of a material including a binder and particles from an inorganic compound, characterized by the ability to heat under the influence of an external alternating magnetic field due to losses on magnetization reversal, eddy currents, or relaxation, and additionally characterized by the ability to reversibly change optical properties with changing temperature. This material may also be made in the form of a composite including particles of an inorganic substance with the above magnetic properties and particles of a substance characterized by the ability to change optical properties when the temperature changes, and the relative position of the particles provides effective heat transfer between them.

The visual effect may consist in the fact that when observing a valuable document in a special visualizer that provides optical pumping (excitation) of the composite material and simultaneous exposure to an alternating magnetic field with a given power and frequency, a visual dynamic change in the brightness of the protective marking is observed.

The task to create a comprehensive protective feature (a double-acting feature) is solved by using a composite material with a given combination of magnetic and optical properties, moreover, the optical properties depend on temperature, and the magnetic properties provide induction heating of the material only in the presence of an alternating magnetic field with certain parameters .

The objective of the proposed invention is to increase the level of security, providing the possibility of visual, expert or machine definition the authenticity of the product through the use of a security feature of an integrated principle of action.

Also in the field of instrument control for determining the authenticity of valuable documents, technical solutions are of particular interest, which can use certain information about the document being checked, and at the same time are not only inaccessible to the potential counterfeiter, but also hidden from the public.

If some non-random information is applied to the protective marking, it is necessary to ensure its safety at least during the period of authentication, and at most during the period of circulation of the product. In this regard, the most promising is the application of protective information, which is local in time. For example, information can be deposited on the product for use in a short period of time, that is, it is applied and stored on the product only during its verification cycle on a counting and sorting machine or at an ATM. After checking the information, it can naturally disappear, for example, collapse under the influence of environmental components (temperature, humidity, pressure, magnetic fields, light, etc.).

Improving the security of the document according to the proposed technical solution may the preferred case is achieved through the use in the composition, or on the surface of a valuable document, of a protective marking that includes a composite material that changes the temperature under the influence of an external alternating magnetic field and at the same time has luminescence manifested under the influence of exciting radiation, and the parameters of luminescent radiation depend on temperature .

A solution is known from the prior art that describes a combination of security features for valuable documents that contains two luminescent substances, one of the substances irreversibly loses its properties at a temperature exceeding the burning temperature of the document. This decision uses the principle of the complex effect on the document in the form of temperature and luminescence. The conclusion about the authenticity of the document is made on the basis of luminescent analysis after exposure to a temperature equal to the burning temperature of the document. According to the authors, this solution allows you to identify the authenticity of a valuable document, even if it was previously destroyed by burning (RU 2249504).

A known method of verifying the authenticity of a valuable document using heating the surface of a document containing a marking with magnetic properties. Heat 15 000340

8 is carried out to a temperature exceeding the temperature of the Curie point of the used magnetic material, and visual registration of changes in the image of the document is carried out by observing it through a special magnetosensitive transparency (US 5533759).

This solution does not provide the possibility of automatic (machine) verification of the authenticity of a valuable document. In addition, the proposed control method is available to both the public and potential counterfeiters. Also, this solution does not provide an accurate measurement of the Curie point, so the sign can be imitated by any magnetic material having a Curie point below the temperature of the heater of the control device.

The prior art known product with protective labeling and a method for determining its authenticity (US 20010022259). An image is applied to the surface of the carrier with magnetic properties that disappear at a temperature lying in the range from -50 to 150 ° C (Curie temperature for the material used in the method). According to a known technical solution, two images with different Curie temperatures and different coercive forces can be applied to the product (document), and these images can be superimposed on each other. The application also describes a device for monitoring authenticity, including a magnetization unit, a heating unit and a magnetic detector.

This solution does not allow to apply and store hidden information on the surface of a valuable document. The images with magnetic properties specified in the solution, including their superposition, are visible.

Closest to the proposed invention is a method of protecting documents, securities or products using nanodiamonds with active NV centers. This solution is based on the use of complex effects - changes in the intensity of photoluminescence under the influence of the microwave field (RU 2357866).

The disadvantage of this method is its own photoluminescence of nanodiamonds, and the depth of its modulation by the microwave field is small (its theoretical limit is about 10%), which requires the use of highly sensitive methods of analysis, high concentrations of the substance and exposure to the document by intense fields.

Disclosure of invention

The problem is solved through the use of a protective material with a given combination of magnetic and optical properties, and the optical properties depend on temperature, and the magnetic properties provide induction heating of the material only in the presence of an alternating magnetic field with certain parameters. Material with complex properties is much more difficult to fake, since it is necessary to reproduce not one property (luminescence in a given spectral band, reflection coefficient, coercive force, etc.), but several properties at once, and in a given combination.

Protective marking can be performed using a composite material with the ability to reversibly change the optical characteristic selected from the following: emissivity in the wavelength range from 0.5 to 15 μm, diffuse reflectance in the range from 1 to 100% in the wavelength range from 0.2 to 10 μm, a refractive index ranging from 1.3 to 4, induced radiation in the wavelength range from 0.2 to 10 μm, spectral sensitivity in the wavelength range from 0.1 to 10 μm, the intensity ratio and stimulated emission bands of from 1 to 1000, and flare-induced attenuation of spectral emission bands in the range of from 10 ^"6 to 10 ms.

Protective labeling composite material may be made using an inorganic compound having the ability to be reversibly change in magnetic permeability and / or magnetic moment.

The product is characterized in that when at least one part of the protective marking surface is exposed to an alternating magnetic field, a latent image and / or information is formed on the treated surface area due to changes in the magnetic and / or optical properties caused by local heating.

One of the options for implementing the proposed invention is to increase the level of security, providing the possibility of expert or machine authentication, with the possibility of multiple verification of the authenticity of the product, eliminating the inadvertent detection of hidden information between verification cycles.

An additional way of implementing the invention is the possibility of applying and reading hidden information, which is randomly generated, but is manifested and read using double exposure directly in the process of machine control and, therefore, cannot be reproduced consciously.

The problem is also solved by the described method for determining the authenticity of the product described above, which consists in the fact that they produce exposure to an alternating magnetic field on 15 000340

12 particles of the inorganic compound used to apply the initial hidden protective marking provide local heating due to losses of magnetization reversal, eddy currents or relaxation, and record the change in the index of the selected optical and / or magnetic characteristics of the inorganic compound in the marking areas susceptible to external variable magnetic fields relative to its sections that are immune to this effect, or relative to sections not exposed to magnetic th field of a given tension.

After fixing changes in the value of the index of optical and / or magnetic characteristics, the surface treatment with an external alternating magnetic field is stopped, and then the inverse characteristic changes are recorded on the treated area to achieve the value inherent in this compound under normal temperature conditions.

When the value of the indicator of the optical and / or magnetic characteristics of the inorganic compound in the marking areas exposed to an external alternating magnetic field is changed, either the corresponding characteristics are measured and analyzed using instrumental methods, or the initially latent image and / or information is visually recorded. The advantages of the proposed invention are based on the use of a complex feature of authenticity, consisting in a certain reaction to a double exposure to the material of the protective labeling, and not manifested in other generally available materials (imitators) known from the prior art.

In the case of the implementation of the invention to obtain a visual effect at the cash level of authentication, this visual dynamic effect may consist in visually recorded dynamic changes in color, luminescence brightness, ripple and flashes of the protective marking image when exposed to a high-frequency alternating magnetic field, the intensity and / or frequency of which changes according to a given algorithm or constant.

From the point of view of this invention, practical interest may be not only the luminescence proper and its dynamic change of various substances over time, but also a number of optical effects based on the properties of photochromic and thermochromic compounds.

Similar to the change in time of the intensity or color of the luminescence glow with the simultaneous exposure to exciting radiation and an alternating magnetic field, according to this invention it can be observed for example, periodically changing the color of the protective markings.

The visual effect according to the invention can be significantly enhanced if, at the same time as the specified protective marking, another graphic element is observed that is similar in color, or in the spectrum and / or luminescence intensity of the luminescence, but without the combination of properties required to obtain a dynamically changing effect ( and, as a result, not responding to a change in an alternating magnetic field).

A valuable document in the present invention is a banknote, an excise stamp, a passport, a travel document, a driver’s license, an identity card, a security paper or a plastic card.

Protective marking can be applied to the surface or embedded in a valuable document. However, it can also be performed by a printing method, preferably metallographic or screen, embedded in a mass of paper and / or in a paper sizing, embedded in a protective fiber introduced into the paper mass, applied to a protective thread or confetti inserted into the paper or at least partially on the surface of the paper, embedded in plastic or applied to the surface of the plastic. The security marking may preferably have the shape of a die, the shape of a circle, the shape of concentric circles, concentric polygons, the shape of diverging beams, or a combination of these figures, is a guilloche element, or is any combination of the above.

Protective marking can be made in the form of personal data of the owner of the document, or form a substrate for the personal data of the owner of the document applied on top, and thus protect the document from unauthorized changes.

The method of authenticity control of a valuable document containing a special protective marking on its surface or in its composition consists, according to the proposed technical solution, in that they produce exposure to constant exciting radiation in the UV spectral range, observe the level and color of the luminescence, then produce exposure to alternating magnetic field, and observe a change in the intensity and / or color of the radiation of the luminescent radiation.

Also, according to this invention, it is possible to illuminate the protective marking with visible light and observe the color change of the thermochromic compound under the influence of an alternating magnetic field. The technical task of increasing the security level of a valuable document is also solved in the proposed solution by using a device, a visualizer, to verify the authenticity of a valuable document, which implements the proposed method for authenticating a valuable document and provides optimal conditions for exciting modulation of the security marking applied to the surface of the valuable document or introduced into it composition, as well as optimal conditions for visual registration of the dynamic effect, consisting in a color change, in pyhivanii or pulsation observed image of the security marking.

A device that implements the proposed method of authenticating a valuable document, a visualizer, provides illumination of protective markings in the UV range of the spectrum with radiation with optimal power, and the formation of an alternating magnetic field that varies according to a given temporal law. The defining feature of this device is the almost complete absence of visually observed dynamic effects on traditional protective markings known from the prior art, for example, stationary luminescence under the influence of UV radiation, or stationary anti-Stokes luminescence. The device may include an electronic control unit for automatically turning the inductor field on and off in a predetermined time sequence to form the dynamics of the change in the brightness of the luminescence of the protective mark, a device for protection against extraneous illumination, a device for positioning the sample.

The device operates as follows: a valuable document is irradiated with exciting radiation with a maximum wavelength lying in the UV or blue region of the optical spectrum, and then it is exposed to an alternating magnetic field with a given frequency and power, with simultaneous visual registration of the resulting dynamic effect, which consists in changing color, flashing or ripple image of security markings on a valuable document.

An increase in the degree of security of a valuable document from forgery when using the proposed authentication method is achieved due to the presence of a visually detectable effect consisting in color change, flashing or ripple of the protective marking image, the dynamic nature of which is reliably detected by the human eye, which allows the use of this invention to control the authenticity of valuable documents on consumer and cash level circulation, with authenticity control by the general public.

A brief description of the figures of the drawings The claimed invention is illustrated by the following figures:

FIG. 1 displays a valuable document in the form of a banknote made on a paper basis (position 1), containing a security marking, printed on its surface by the offset printing method (position

2)

In FIG. 2 shows a functional diagram of the inventive device for authenticating a valuable document. The device contains: a device for protection against external illumination (position 1), a source of exciting radiation in the wavelength range of 330 - 380 nm (position 2), an object table (position 3), on which the banknote is located (position 5), a magnetic inductor (position 4 ), and a control unit (not shown in the diagram).

The best example of carrying out the invention

The claimed technical solution can be implemented by the methods described in the examples below. Example 1

A valuable document in the form of a banknote made on a paper basis (Fig. 1, position 1) contains a protective marking printed on its surface by the offset printing method (Fig. 1, position 2).

The labeling includes 80% of the offset binder based on titanium white and 20% of the pigment based on an inorganic compound, which is a ferro-yttrium garnet doped with 3 valent europium ions, characterized by the ability to heat under the influence of an external alternating magnetic field with a frequency of 10 ³ KHz.

The specified substance has narrow-band luminescence in the visible spectrum with a maximum at 625 nm, when exposed to exciting radiation in the range 330 - 380 nm. In this case, the brightness of the glow depends on the power of the applied exciting radiation.

The specified substance is simultaneously characterized by the ability to visually detect changes in its luminescent properties with a change in temperature caused by the action of an alternating magnetic field due to the effect of thermal quenching of luminescence. The totality of these parameters characterizes the authenticity of a valuable document.

Example 2

The authenticity control device of a valuable document in the form of a banknote containing a security marking made in accordance with example 1.

A functional diagram of the inventive device for authenticating a valuable document is shown in FIG. 2.

The device contains: a source of exciting radiation in the wavelength range of 330 - 380 nm (Fig. 2, position 2), a device for protection from external illumination (Fig. 2, position 1), a stage (Fig. 2, position 3), a magnetic inductor (Fig. 2, position 4) and a control unit (not shown in the diagram).

On the subject table is a banknote (Fig. 2, position 5).

When exposed to UV banknote radiation from sources, red luminescence is visually observed. When you turn on the inductor, switched by the control unit according to a certain temporary law, there is a periodic attenuation of luminescence radiation in accordance with this law, which indicates the authenticity of the banknote. Example 3

The product in the form of an excise stamp contains on the front side a colorless protective marking of a rectangular shape made by offset printing.

Protective labeling contains 80% binder and 20% composite material in the form of particles ranging in size from 2 to 5 microns.

Particles of the material consist of their core, made of γ-iron oxide Fe ₂ Oz and the shell, partially deposited on the surface of the core, and made of a phosphor based on Zn S.

When illuminating protective markings with radiation in the wavelength range from 330 to 400 nm, visible green luminescence is observed in the wavelength range of 450 - 610 nm with a spectrum maximum at 540 nm.

When processing the protective marking areas with an alternating magnetic field with a frequency of 13.56 MHz, it is locally heated to a temperature of 50 ° C (323 K), at which the photoluminescence intensity reversibly decreases in the treated areas due to the effect of thermal quenching of luminescence in the above spectral band.

Areas subjected to alternating magnetic field processing form an encoded a barcode sequence that can be read by the optical sensor during the recovery time of the normal luminescence intensity.

After the marking cools down to the ambient temperature, the recorded information disappears irreversibly, and thus becomes inaccessible for observation by the population and forgery.

However, this information can be reproduced an unlimited number of times during repeated verification of the authenticity of the excise stamp, since the used characteristic of the marking material is reversible.

The totality of the measured parameters, including the totality of the magnetic and optical properties of the composite marking material, as well as the reversible change in the optical properties of the marking substance in the form of a written code sequence, can be instrumentally measured, and thus the authenticity of the protected product is established.

Example 4

The product in the form of a banknote contains a colorless security marking in the form of a transverse strip. The marking contains superparamagnetic particles of barium ferrite ranging in size from 20 to 80 nm, introduced directly into pulp and particles of phosphors based on Gd? Q? S ranging in size from 1 to 3 microns, also introduced into the paper pulp.

When protective markings are illuminated by pulsed radiation in the wavelength range from 330 to 400 nm, visible green luminescence is detected with a spectrum maximum at 514 nm and a decay time constant of about 30 μs.

When the protective marking sections are treated with an alternating magnetic field with a frequency of 5 MHz, it is locally heated due to Neel / Brown relaxation to a temperature of 50 ° C (323 K), at which the luminescence decay time constant reversibly changes in the treated areas.

The change in the decay time constant can be measured by the instrumental method during the cooling time of the treated marking areas to the ambient temperature.

The set of measured parameters, including the set of magnetic and optical properties of the composite marking material, as well as the reversible change in the luminescence decay time constant, can be measured instrumentally and serves as a criterion for the authenticity of the product. Industrial applicability

The invention relates to the field of protection of products from counterfeiting and can be used for instrumental determination of the authenticity of protected printing products, such as banknotes and letterhead paper, labels, excise and postage stamps, payment and identification documents, passports and travel documents.

Claims

CLAIM

1. An article containing a carrier with a protective marking affixed to its surface, the marking being made using a composite material including a binder and particles of an inorganic compound characterized by the ability to heat under the influence of an external alternating magnetic field and containing, or at least partially containing on its surface an additional substance characterized by the ability to change its optical or magnetic properties when the temperature changes tours.

2. The product according to claim 1, characterized in that the particles of the inorganic compound are heated by an external alternating magnetic field mainly due to magnetization reversal losses, and the intensity of the external alternating magnetic field exceeds the coercive force of the composite material.

3. The product according to claim 1, characterized in that the particles of the inorganic compound are heated under the action of an external alternating magnetic field mainly due to the flow of eddy currents.

4. The product according to claim 1, characterized in that the particles of the inorganic compound are heated under the influence of an external alternating magnetic field mainly due to relaxation losses.

5. The product according to any one of claims 1 to 4, characterized in that the protective marking is made using a composite material having the ability to reversibly change the magnetic permeability and / or magnetic moment with temperature.

6. The product according to any one of claims 1 to 4, characterized in that, when the temperature changes, the protective marking composite material is capable of reversibly changing the optical and / or magnetic characteristics selected from the following: emissivity in the wavelength range from 0.5 up to 15 microns, diffuse reflectance, lying in the range from 10 to 100% in the wavelength range from 0.2 to 10 microns, refractive index, lying in the range from 1, 3 to 4, induced radiation in the wavelength range from 0, 2 to 10 microns, spectral sensitivity in Range wavelengths from 0.1 to 10 .mu.m, the ratio of the intensity of induced emission bands of from 1 to 1000, and flare-induced attenuation of spectral emission bands in the range of from 10 ^"6 to 10 ms, the magnetic susceptibility in the range from 1 to 10 ^6.

7. The product according to any one of claims 1 to 6, characterized in that when exposed to various parts of the surface of the protective marking with an alternating magnetic field with a frequency of 10 ³ to 10 Hz, a latent image, a code sequence and / or information is formed.

8. The product according to any one of claims 1 to 7, characterized in that the particle size of the inorganic compound is from 0.01 μm to 100 μm.

9. The product according to claim 8, characterized in that it consists of a banknote, excise stamp, postage stamp, passport, travel document, driver's license, identity card, security, plastic card, label, payment document.

10. The product according to p. 9, characterized in that the protective marking is made by the printing method.

11. The product according to claim 9, characterized in that the protective marking is introduced into the paper or polymer mass, or applied as a layer on the surface of the paper or polymer, or applied as an adhesive layer between the inner layers of the multilayer product.

12. The product according to claim 9, characterized in that the protective marking is embedded in the protective fiber introduced into the paper mass.

13. The product according to p. 9, characterized in that the protective marking is applied to the security thread or confetti, inserted into the paper or located at least partially on the surface of the paper.

14. The product of claim 10, characterized in that the protective marking is made in the form of geometric shapes, guilloche elements, graphic or alphanumeric characters.

15. The product according to claim 10, characterized in that the protective marking is the personal information of the owner of the document.

16. The product of claim 10, characterized in that the protective marking forms a substrate for the personal information of the owner of the document, applied on top, to provide protection against unauthorized changes to it.

17. The product according to any one of paragraphs. 10-13, characterized in that the protective marking is made hidden and indistinguishable on the surface of the carrier when observing the reflection in the visible range under diffuse lighting.

18. The product according to any one of paragraphs. 10-13 characterized in that the protective marking contains at least two layers of dissimilar materials, one of the materials being characterized by the ability to heat under the influence of an external alternating magnetic field, the other is characterized by the ability to reversibly change its optical properties in the visible spectrum due to changes in the temperature applied to it, while the mutual arrangement of the layers provides heat transfer between them.

19. The product according to p. 18, characterized in that the protective marking has a luminescent compound in the composition, which, under the influence of the exciting radiation, has a glow that lies mainly in the visible range of the spectrum.

20. The product according to any one of paragraphs. 1-19, characterized in that it contains the specified protective marking and additional marking with luminescence in the visible range of the spectrum, but not having the ability to reversibly change its optical properties in the visible range of the spectrum by changing the temperature applied to it and an alternating magnetic field.

21. The product according to p. 20, characterized in that both markings have the same color at room temperature.

22. The product according to any one of paragraphs. 20-21, characterized in that both markings have the same luminescence color under the influence of UV radiation at room temperature.

23. The product according to any one of paragraphs. 1-22, characterized in that each particle of the composite compound is is a two-layer structure in which the luminescent compound forms a sheath for the magnetic compound.

24. The product according to any one of paragraphs. 1-22, characterized in that each particle of the composite compound is a structure in which the luminescent compound is part of the magnetic compound.

25. The method of determining the authenticity of the product, which consists in the fact that they produce an external magnetic field with a frequency of 10 ³ to 10 ⁸ Hz on the protective marking, provide heating and record the change in the index of the selected optical or magnetic characteristics of the composite material included in the protective marking on treated areas of the surface relative to its unprocessed areas.

26. The method according A.25, characterized in that the external magnetic field produces a protective marking containing particles with a given Curie temperature, provides heating mainly due to magnetization reversal losses, and measures the temperature at which heating ceases.

27. The method according to p. 25, characterized in that after fixing on the treated area changes in the value of the index of optical and / or magnetic characteristics, the surface treatment is stopped, and then the inverse characteristic changes are recorded on the previous the treated area with the achievement of a value inherent in this compound under normal conditions.

28. The method according to p. 25, characterized in that when changing the value of the optical and / or magnetic characteristics of the composite material in the treated areas of the protective marking, either measure and analyze the corresponding characteristics using instrumental methods, or visually capture the initially hidden image and / or information.

29. A method for determining the authenticity of a value-protected document, which consists in the fact that the protective markings are exposed to exciting radiation in the UV range of the spectrum, and luminescence of a given color of luminescence is observed in the visible range of the spectrum, then the protective marking is exposed to an alternating magnetic field with a given frequency, and observe the change in the radiation intensity of the luminescent radiation under the influence of a modulating magnetic field.

30. The method according to p. 29, characterized in that when exposed to the protective marking with an alternating magnetic field, a visual comparison is made of the surface area occupied by the protective marking and having the property of dynamically changing its optical properties and any other parts of the image on the document, similar in color and / or luminescence, but not possessing the above property.

31. A device for checking the authenticity of a falsified document containing a source of exciting radiation, a device for protection against external illumination, a stage, a magnetic inductor and a control unit for a magnetic inductor for generating a predetermined temporal law for changing the frequency of the generated magnetic field.

32. The device according to p. 31, characterized in that it further comprises an element for positioning a valuable document in the form of an emphasis.