JP4278731B2 - Authenticator and its usage - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an authenticity determination body for discriminating genuine and counterfeit goods such as gift certificates and other vouchers, and a method of using the same.
[0002]
[Prior art]
Conventionally, in order to prevent forgery of this kind of cash vouchers and the like, forgery-proof printed matter provided with a color changing portion in which the color changes depending on the viewing angle has been widespread. Such a color change portion is formed by printing a color change ink whose color changes depending on the viewing angle, such as pearl ink.
Pearl ink contains thin metal particles and the like as pigments, and multiple reflections of light are caused by the metal particles. The reflected light determines the wavelength of light, that is, the color, depending on the thickness of the metal particles, and the light interferes with each other to cause a color change.
[0003]
[Problems to be solved by the invention]
However, it has been difficult to produce the above-described conventional printed matter that produces the same color change.
That is, as described above, the color change caused by the pearl ink is caused by the interference action of the reflected light determined by the thickness of the metal particles. Therefore, the thickness of the metal particles varies to some extent so as to interfere with light. It is necessary to be. If the variation is different, the color change is also different.
[0004]
However, it is difficult to stably supply metal particles with the same degree of thickness variation, and when the production lot changes, the variation often changes. It was difficult to produce a material that produced
Therefore, although it is a genuine product, there is a possibility that it is determined to be a counterfeit product because the color change is different.
[0005]
The subject of this invention is providing the authenticity determination body which can perform authenticity determination easily and reliably, and its usage method.
[0006]
[Means for Solving the Problems]
The present invention solves the above problems by the following means. In addition, in order to make an understanding easy, although the code | symbol corresponding to embodiment of this invention is attached | subjected and demonstrated, it is not limited to this .
[0007]
In order to solve the above-mentioned problem, the invention of claim 1 is directed to the base material (11) and the incident light (50) formed on one part of one surface of the base material (11) using cholesteric liquid crystal ink. ) Of the first light selective reflection layer (12-1) that reflects only the light (51) of either the left-handed polarized light (51) or the right-handed polarized light (52), and the base material (11). It is formed by using cholesteric liquid crystal ink on the other part of one surface, and out of the incident light (50), either the left-handed polarized light (51) or the right-handed polarized light (52) is only the other light (52). Either the embossed hologram or the diffraction grating is press-formed on a part of the second light selective reflection layer (12-2) to be reflected and a part of the first light selective reflection layer (12-1), and a genuine product is determined. A first determination unit (12a-1) including first determination information to be One of an embossed hologram and a diffraction grating is press-formed on a part of the selective reflection layer (12-2), and a second determination unit (12a-2) including second determination information for determining a genuine product is provided. It is a true / false judgment object.
[0008]
The invention of claim 2 is a method of using the authenticity determination body according to claim 1, wherein the phase (51, 52) reflected by the authenticity determination object is converted into linearly polarized light (61, 62). A first plate having a plate (31) and a polarizer (32a) that transmits only the linearly polarized light (61) having a predetermined polarization plane among the linearly polarized light (61, 62) converted by the phase plate (31). Authenticity determination tool (30a), phase plate (31) for converting the light (51, 52) reflected by the authenticity determination body into linearly polarized light (61, 62), and the phase plate (31) for conversion Of the linearly polarized light (61, 62), the first authenticity determination tool (30a) has a polarizer (32b) that transmits only the linearly polarized light (62) that is different from the linearly polarized light (61) that is transmitted. Using the second authenticity determination tool (30b), the image is viewed through the first authenticity determination tool (30a). When the second determination information becomes visible when the first determination information becomes visible and is viewed through the second authenticity determination tool (30b), it is determined to be a genuine product. This is a method of using a true / false verifier characterized by the following.
[0009]
Invention of Claim 3 is formed using the cholesteric liquid crystal ink on one side of the base material (11) and the base material (11), and out of the incident light (50), the counterclockwise polarized light (51) or A light selective reflection layer (12) that reflects only one light (51) of clockwise polarized light (52), and either one of an embossed hologram or a diffraction grating is formed on a part of the light selective reflection layer (12). It is a method of using a true / false judgment object having a judgment part (12a) having judgment information for judging authenticity, which is formed by pressing, and the light (51, 52) reflected by the authenticity judgment object is linearly polarized ( 61, 62) and a polarizer that transmits only the linearly polarized light (61) having a predetermined polarization plane among the linearly polarized light (61, 62) converted by the phase plate (31). (32a) a first authenticity determination tool (30a A phase plate (31) that converts the light (51, 52) reflected by the authenticity determination body into linearly polarized light (61, 62), and linearly polarized light (61, 62) converted by the phase plate (31). Of these, the second authenticity determination tool (30b) having the linearly polarized light (61) transmitted through the first authenticity determination tool (30a) and the polarizer (32b) that transmits only different linearly polarized light (62). The determination information becomes visible when viewed through the first authenticity determination tool (30a), and the determination information becomes invisible when viewed through the second authenticity determination tool (30b). When it becomes, it is the usage method of the authenticity determination body characterized by determining with a genuine article.
[0011]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in more detail with reference to the drawings.
(First embodiment)
FIG. 1 is a diagram illustrating a usage state of the first embodiment of the authenticity determination body according to the present invention. In the figure, (A) is a front view, and (B) is a BB cross-sectional view of (A).
The authenticity determination body 10 of the present embodiment is used by being attached to a gift certificate 20. The authenticity determination body 10 includes a base material 11, a light selective reflection layer 12, a protective layer 13, and an adhesive layer 14.
[0012]
The base material 11 is a base material that serves as a carrier for the authenticity determination body 10. The base material 11 is preferably made of a material that does not absorb the pressing pressure when forming the determination portion 12a described later. For example, the base material 11 is made of vinyl chloride, PMMA, PET, ABS, polyolefin, PET-G, polycarbonate, acrylonitrile-styrene. Generally used plastic materials such as a polymer, cellulose propionate, and cellulose acetate butyrate may be used.
[0013]
The light selective reflection layer 12 is a layer that reflects only one of the left-hand polarized light and the right-hand polarized light in the incident light, and is formed on the base material 11. The light selective reflection layer 12 uses a cholesteric liquid crystal (hereinafter referred to as “CLC”) ink that reflects only one of the left-handed polarized light and the right-handed polarized light, and performs gravure printing or the like. It can be formed by printing in planographic printing such as intaglio printing, offset printing, letterpress printing, screen printing, ink jet printing or other commonly used methods.
[0014]
The CLC ink contains CLC molecules that reflect only one of left-handed polarized light and right-handed polarized light as a pigment.
The CLC molecule contained in the ink as a pigment needs to select the particle size and the pigment concentration as appropriate in consideration of the reflection efficiency and the printability.
The reason why the CLC molecule reflects either the left-handed polarized light or the right-handed polarized light among the incident light will be described later.
The light selective reflection layer 12 includes a determination unit 12a including determination information for determining a genuine product.
[0015]
The determination unit 12 a is a part having determination information for determining a genuine product, and is formed on the light selective reflection layer 12. The determination unit 12a is formed of a so-called embossed hologram that is manufactured by pressing with a mold.
Here, the determination unit 12a is formed in the form of determination information “DN”.
Moreover, in order to improve the diffraction efficiency and make it easy to visually confirm the hologram image, the normal embossed hologram is provided with a vapor deposition layer that increases the reflectance of the incident light. Such a vapor deposition layer may not be provided. The reason will be described later.
[0016]
The protective layer 13 is a layer that protects the light selective reflection layer 12, in particular, the embossment of the determination unit 12 a from damage due to external force, and is provided on the light selective reflection layer 12. The protective layer 12 is substantially transparent so that judgment information and the like can be easily seen. The protective layer 13 is made of a cellulose resin, a polyimide resin, a polystyrene resin, a polyester resin, or the like. The protective layer 13 is formed with a thickness of about 5 to 200 μm.
[0017]
The adhesive layer 14 is a layer that enables the authenticity determination body 10 to adhere to the authenticity determination target object 20 such as a gift certificate. The adhesive layer 14 can be formed by applying an acrylic adhesive, a natural rubber adhesive, a synthetic rubber adhesive, a silicone rubber adhesive, or the like.
[0018]
FIG. 2 is a schematic diagram showing the structure of the CLC molecule used in the authenticity determination body according to the present invention.
Here, the reason why the CLC molecule reflects only one of the left-handed polarized light and the right-handed polarized light from the incident light will be described.
As shown in FIG. 2, the CLC molecules are stacked by rotating several degrees with respect to the molecular axis of the liquid crystal, and become liquid crystal molecules having a right or left spiral structure depending on the rotation direction.
[0019]
When light having the same rotational direction as the spiral structure of the liquid crystal molecules is incident, the light is reflected, and when light having a rotational direction opposite to the spiral structure of the liquid crystal molecules is incident, the light is transmitted.
Since natural light includes both left-handed polarized light and right-handed polarized light, only polarized light in the same rotational direction as the helical structure of the liquid crystal molecules is reflected, and polarized light in the opposite rotational direction is transmitted.
[0020]
Further, it is known that CLC molecules strongly reflect light having a wavelength of ½ pitch of CLC molecules. That is, by adjusting the pitch, the color can be adjusted, so that it can be used as pigments of various colors.
[0021]
FIG. 3 is a schematic diagram showing a state of light reflection of CLC molecules used in the authenticity determination body according to the present invention. In the figure, the width of the line represents the amount of light. That is, the amount of light reflected by the CLC molecule is higher at the upper part (incident light side).
Here, the reason why the authenticity determination body 10 does not have to have a vapor deposition layer will be described.
As shown in FIG. 3, since the CLC ink reflects light by each CLC molecule, the reflectance is higher than that of a normal embossed hologram structure not containing the CLC molecule. Moreover, since the determination part 12a is formed with the embossed hologram pressed with a metal mold | die, the helical pitch of a CLC molecule changes at the time of pressing, a refractive index change is produced, and reflection is produced also by this refractive index change. Accordingly, the authenticity determination body 10 may not have a vapor deposition layer.
[0022]
FIG. 4 is a diagram for explaining the authenticity determination of the authenticity determination object according to the present invention.
In the present embodiment, the authenticity determination body 10 will be described by giving a case where it is colored including CLC molecules that reflect the counterclockwise polarized light 51.
The authenticity determination body 10 is subjected to authenticity determination by the authenticity determination tools 30a and 30b.
The first authenticity determination tool 30a includes a phase plate 31 and a polarizer 32a.
The second authenticity determination tool 30b includes a phase plate 31 and a polarizer 32b.
[0023]
The phase plate 31 is an optical plate for giving a phase difference to incident light. In the present embodiment, a so-called ¼ wavelength plate is used. The quarter wavelength plate is an optical plate having a property of converting circularly polarized light into linearly polarized light and linearly polarized light into circularly polarized light.
The phase plate 31 transmits the counterclockwise polarized light 51 reflected by the light selective reflection layer 12 and converts it into linearly polarized light 61 having a vertical polarization plane.
Moreover, the phase plate 31 transmits the light selective reflection layer 12, transmits the clockwise polarized light 52 reflected by the base material 11, and converts the light into a linearly polarized light 62 having a horizontal polarization plane.
[0024]
The polarizers 32a and 32b are elements that normally convert natural light into linearly polarized light. When linearly polarized light is incident, the polarizers 32a and 32b transmit only light having a specific polarization plane.
The polarizer 32 a is a polarizer that transmits linearly polarized light having a vertical polarization plane, and transmits linearly polarized light 61 but does not transmit linearly polarized light 62.
The polarizer 32 b is a polarizer that transmits linearly polarized light having a polarization plane in the left-right direction, and transmits linearly polarized light 62 but does not transmit linearly polarized light 61.
[0025]
The natural light 50 includes left-handed polarized light 51 and right-handed polarized light 52.
When natural light 50 enters the authenticity determination body 10, the following occurs.
(1) Of the natural light 50 incident on the authenticity determination body 10, the counterclockwise polarized light 51 is reflected by the light selective reflection layer 12. On the other hand, the clockwise polarized light 52 is transmitted through the light selective reflection layer 12 and reflected by the base material 11.
(2) In (1), the counterclockwise polarized light 51 reflected by the light selective reflection layer 12 can pass through the first authenticity determination tool 30a but cannot pass through the second authenticity determination tool 30b.
Here, in the light selective reflection layer 12, the left-handed polarized light reflected by the determination unit 12a and the left-handed polarized light reflected by a portion other than the determination unit 12a have different traveling directions, thereby causing a light / dark difference. The determination information “DN” becomes visible.
(3) In (1), the clockwise polarized light 52 reflected by the base material 11 can pass through the second authenticity determination tool 30b, but cannot pass through the first authenticity determination tool 30a. Since the clockwise polarized light 52 reflected by the base material 11 is light having a ½ pitch wavelength of the CLC molecule, the light can be confirmed as the color of the authenticity determination body 10.
[0026]
In this way, by changing the authenticity determination tool, the appearance of the authenticity determination object 10 changes.
[0027]
(how to use)
FIG. 5 is a diagram illustrating a method of using the first embodiment of the authenticity determination object according to the present invention.
The authenticity determination body 10 performs the authenticity determination by using as follows.
(1) The user visually checks the authenticity determination body 10 before performing the authenticity determination (FIG. A).
At this time, since the authenticity determination body 10 reflects natural light, the reflected light amount is large, and the character of the determination information “DN” is masked. Therefore, the user cannot clearly see the characters of the determination information “DN”.
[0028]
(2) The user who has confirmed the authenticity determination object 10 in (1) visually checks the authenticity determination object 10 through the first authenticity determination tool 30a.
At this time, the user can see the counterclockwise polarized light 51 reflected by the light selective reflection layer 12.
In the light selective reflection layer 12, the left-handed polarized light reflected by the determination unit 12a and the left-handed polarized light reflected by a portion other than the determination unit 12a have different traveling directions, so that there is a light / dark difference. Furthermore, since the clockwise polarized light 52 reflected by the base material 11 is cut by the first authenticity determination tool 30a, the user can clearly check the determination information “DN” (FIG. B).
[0029]
(3) The user who visually confirms the determination information “DN” in (2) sees the authenticity determination body 10 through the second authenticity determination tool 30b.
At this time, the user can see the reflected clockwise polarized light 52 on the base material 11. Since this reflected light is a light having a ½ pitch wavelength of the CLC molecule, it can be confirmed as the color of the authenticity determination body 10 (FIG. C).
[0030]
According to the present embodiment, the light selective reflection layer 12 that reflects only one of the left-handed polarized light 51 and the right-handed polarized light 52 in the incident light and the determination unit 12a including determination information are included. Since the determination information becomes visible when viewed through the authenticity determination tool 30a that transmits the light reflected by the light selective reflection layer 12, the authenticity determination can be easily performed.
Moreover, since the determination part 12a is formed with the embossed hologram , since the determination information exhibits a rainbow color, the visual effect is high.
Furthermore, since the determination part 12a is press-formed on the CLC ink layer, it has a hologram effect even if there is no vapor deposition layer.
[0031]
(Second Embodiment)
FIG. 6 is a diagram illustrating a method of using the second embodiment of the authenticity determination object according to the present invention.
In each embodiment described below, parts having the same functions as those in the first embodiment described above are denoted by the same reference numerals, and redundant description is omitted as appropriate.
The light selective reflection layer of the authenticity determination body 10-2 is the first light selective reflection layer 12-1 printed with CLC ink that reflects only the left-handed polarized light on the left side, and reflects only the right-handed polarized light on the right side. It is the 2nd light selective reflection layer 12-2 printed with CLC ink. Thus, the light selective reflection layer is printed with different CLC inks.
The authenticity determination body 10-2 performs the authenticity determination using as follows.
(1) The user visually confirms the authenticity determination body 10-2 before performing the authenticity determination (FIG. A).
At this time, the user can visually recognize the characters of the determination information “DN”.
[0032]
(2) The user who has confirmed the authenticity determination object 10-2 in (1) sees the authenticity determination object 10-2 through the first authenticity determination tool 30a.
At this time, the user can clearly see the first determination information “D” by the counterclockwise polarized light 51 reflected by the first light selective reflection layer 12-1 (FIG. B).
[0033]
(3) The user who confirmed the first determination information “D” in (2) looks at the authenticity determination body 10-2 through the second authenticity determination tool 30b.
At this time, the user can clearly see the second determination information “N” by the clockwise polarized light 52 reflected by the second light selective reflection layer 12-2 (FIG. C).
[0034]
According to the present embodiment, since the light selective reflection layers 12-1 and 12-2 are formed by separately coating ink, different determination information can be confirmed using different authenticity determination tools 30a and 30b. because that can, it is possible to authenticity determination more accurately.
Moreover, since the light selective reflection layers 12-1 and 12-2 are formed by coating different inks separately, it is possible to produce a layer having excellent design properties.
Note that the light selective reflection layers 12-1 and 12-2 may be arranged in a plurality of locations depending on the design, or the colors may be changed, respectively, so that a more excellent design can be produced. it can.
[0035]
(Third embodiment)
FIG. 7 is a diagram illustrating a usage state of the third embodiment of the authenticity determination object according to the present invention.
The authenticity determination body 10-3 of the present embodiment is used by being attached to the face photograph portion of the employee card 20.
[0036]
The authenticity determination body 10-3 is made almost transparent so that the face photograph of the employee ID card 20 can be easily seen.
That is, the base material 11 and the adhesive layer 14 are formed of a substantially transparent material.
In addition, the light selective reflection layer 12 includes CLC molecules that reflect only the left-handed polarized light, but the density thereof is sparse compared to the authenticity determination body 10 of the first embodiment. The face photo of Testimony 20 is easy to see.
[0037]
(how to use)
FIG. 8 is a diagram illustrating a method of using the third embodiment of the authenticity determination object according to the present invention.
The authenticity determination body 10-3 performs authenticity determination by using as follows.
(1) The user visually checks the authenticity determination body 10-3 before performing the authenticity determination (FIG. A).
At this time, the user can visually check the face photograph of the employee ID card 20 and the characters of the determination information “DN” that are light.
[0038]
(2) The user who has confirmed the authenticity determination body 10-3 in (1) passes through the authenticity determination tool 30a that transmits only the counterclockwise polarized light 51 reflected by the light selective reflection layer 12, and the authenticity determination object 10- Look at 3.
At this time, the user can clearly see the determination information “DN” of the determination unit 12a. Further, since the clockwise polarized light 52 reflected by the face photograph of the employee ID card 20 cannot pass through the authenticity determination tool 30a, the face photograph cannot be seen (FIG. B).
[0039]
According to the present embodiment, since the base material 11 and the adhesive layer 14 are substantially transparent and the CLC molecules contained in the light selective reflection layer 12 are sparse, they are not viewed through the authenticity determination tool 30a. In addition, the face photo of the employee ID card 20 is easy to see.
Further, since the determination information “DN” of the determination unit 12a can be clearly seen when viewed through the authenticity determination tool 30a, the authenticity determination can be easily performed.
[0040]
(Deformation)
The present invention is not limited to the embodiment described above, and various modifications and changes are possible, and these are also within the equivalent scope of the present invention.
For example, the determination unit 12a may be formed by a diffraction grating.
Further, the protective layer 13 may not be provided when there is no risk of damage due to, for example, no external force being applied to the light selective reflection layer 12.
Moreover, as shown in FIG. 9, the authenticity determination body 10 may be scooped into the gift certificate as a thread. By doing so, the adhesive layer 14 is unnecessary.
[0041]
Furthermore, as shown to FIG. 10 (A), you may arrange | position the base material 11 on the outermost surface, and affix it on a gift certificate. Further, as shown in FIG. 10B, a release layer 15 may be provided between the base material 11 and the light selective reflection layer 12 to form a transfer foil structure. In any case, a protective layer 13 for protecting the light selective reflection layer 12 may be provided.
[0042]
【The invention's effect】
As described above in detail, according to the present invention, the light selective reflection layer that reflects only one of the left-handed polarized light and the right-handed polarized light among the incident light and the determination information for determining the genuine product are included. Since it has the determination part with which it comprises, when it sees through a true / false determination tool, determination information becomes visible and it can determine authenticity.
[0043]
According to the present invention, the first light selective reflection layer, the second light selective reflection layer, and the determination information that reflect only one of the left-handed polarized light and the right-handed polarized light among the incident light. Since it has the 1st judgment part provided and the 2nd judgment part provided with the 2nd judgment information, it can judge authenticity more correctly.
[0044]
According to the present invention, a phase plate that converts light reflected by the authenticity determination body into linearly polarized light, and a polarizer that transmits only linearly polarized light having a predetermined polarization plane out of the linearly polarized light converted by the phase plate, When the information displayed on the base material becomes invisible when viewed through a true / false determination tool having a mark, and if the determination information appears to be visible, it is determined to be genuine. Can be determined.
[0045]
According to the present invention, a phase plate that converts light reflected by the authenticity determination body into linearly polarized light, and a polarizer that transmits only linearly polarized light having a predetermined polarization plane out of the linearly polarized light converted by the phase plate, When it is viewed using the first authenticity determination tool and the second authenticity determination tool having be able to.
[0046]
According to the present invention, a phase plate that converts light reflected by the authenticity determination body into linearly polarized light, and a polarizer that transmits only linearly polarized light having a predetermined polarization plane out of the linearly polarized light converted by the phase plate, When it is viewed using the first authenticity determination tool and the second authenticity determination tool having a difference, it can be determined that the product is genuine by seeing different determination information. False determination can be made.
[Brief description of the drawings]
FIG. 1 is a diagram illustrating a usage state of a first embodiment of a true / false determination object according to the present invention.
FIG. 2 is a schematic diagram showing the structure of a CLC molecule used for authenticity determination according to the present invention.
FIG. 3 is a schematic diagram showing a state of light reflection of CLC molecules used in the authenticity determination body according to the present invention.
FIG. 4 is a diagram illustrating authenticity determination of an authenticity determination object according to the present invention.
FIG. 5 is a diagram showing a method of using the first embodiment of the authenticity determination object according to the present invention.
FIG. 6 is a diagram illustrating a method of using a second embodiment of the authenticity determination object according to the present invention.
FIG. 7 is a diagram illustrating a usage state of a third embodiment of the authenticity determination object according to the present invention.
FIG. 8 is a diagram illustrating a method of using a third embodiment of the authenticity determination object according to the present invention.
FIG. 9 is a diagram illustrating a usage state of a fourth embodiment of the authenticity determination object according to the present invention.
FIG. 10 is a cross-sectional view showing another embodiment of the authenticity determination body according to the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 Authenticity determination body 11 Base material 12 Light selective reflection layer 12a Determination part 13 Protective layer 14 Adhesive layer 15 Release layer 20 Authenticity determination object (gift certificate, identification card)
30a, 30b Authenticity determination tool 31 Phase plates 32a, 32b Polarizer 50 Natural light 51 Left-handed polarized light 52 Right-handed polarized light 61, 62 Linearly polarized light

Claims (3)

A substrate;
1st light selective reflection which is formed in one part of the one surface of the said base material using a cholesteric liquid crystal ink, and reflects only the light of either left-handed polarized light or right-handed polarized light among the incident light Layers,
Second light selective reflection that is formed by using cholesteric liquid crystal ink on the other surface of one surface of the base material and reflects only one of the left-hand polarized light and the right-hand polarized light among the incident light. Layers,
A first determination unit including first determination information for determining whether an embossed hologram or a diffraction grating is pressed on a part of the first light selective reflection layer, and determining a genuine product;
An authenticity determination body comprising: a second determination unit including second determination information for determining whether the embossed hologram or the diffraction grating is press-formed on a part of the second light selective reflection layer and determining authenticity . A method of using the authenticity determination body according to claim 1 ,
A first phase plate that converts light reflected by the authenticity determination body into linearly polarized light, and a polarizer that transmits only linearly polarized light having a predetermined polarization plane among the linearly polarized light converted by the phase plate. Authenticity determination tool,
A phase plate that converts the light reflected by the authenticity determination body into linearly polarized light, and among the linearly polarized light that is converted by the phase plate, only linearly polarized light that is different from the linearly polarized light that is transmitted by the first authenticity determination tool is transmitted. And a second authenticator having a polarizer that
When the first determination information becomes visible when viewed through the first authenticity determination tool, and when the second determination information becomes visible when viewed through the second authenticity determination tool, it is authentic. A method of using a true / false determination object characterized by determining that the product is a product. A substrate;
A light selective reflection layer that is formed using cholesteric liquid crystal ink on one surface of the substrate and reflects only one of the left-hand polarized light and the right-hand polarized light among the incident light, and
A determination unit including determination information for determining whether the embossed hologram or the diffraction grating is press-formed on a part of the light selective reflection layer and determining an authentic product;
A method of using a verifier that has
A first phase plate that converts light reflected by the authenticity determination body into linearly polarized light, and a polarizer that transmits only linearly polarized light having a predetermined polarization plane among the linearly polarized light converted by the phase plate. Authenticity determination tool,
A phase plate that converts the light reflected by the authenticity determination body into linearly polarized light, and among the linearly polarized light that is converted by the phase plate, only linearly polarized light that is different from the linearly polarized light that is transmitted by the first authenticity determination tool is transmitted. And a second authenticator having a polarizer that
When viewed through the first authenticity determination tool, the determination information becomes visible, and when viewed through the second authenticity determination tool, when the determination information becomes invisible, it is determined to be genuine. A method of using the authenticity judgment object characterized by the above.

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