An optical device including: a colour shifting layer that exhibits different colours dependent on the angle of incidence of incident light; first and second arrays of at least partially transparent microstructures covering at least part of the layer, configured to modify angle of light to generate a first optically variable effect, wherein: the first array is arranged as a set of image elements that cooperate to exhibit a first image, and the second is arranged to exhibit a second image, wherein the elements of the first array are interlaced with those of the second, and, the microstructures have at least one face that reflects incident light, whereby the first array is configured so, when viewed along a first viewing direction the device exhibits the first image, and the second is configured so, when viewed along a second direction the device exhibits the second image. Also, methods of manufacturing the device.

A security element has machine-readable magnetic security features in the form of at least two magnetic materials which have different magnitudes of coercive force and which are provided as a mixture in at least one printing ink that is applied onto a carrier substrate, wherein the at least one printing ink is provided in at least two regions on the security element with the same thickness and/or different thicknesses, and a defined mixture ratio of the at least two magnetic materials with different magnitudes of coercive force is provided in the at least one printing ink.

Provided is a phase difference film formed of a resin containing a polymer having crystallizability, and having an NZ factor of less than 1. A production method of the phase different film includes: bonding a second film to one or both surfaces of a first film formed of a resin containing the polymer having crystallizability and having a glass transition temperature Tg (° C.) and a melting point Tm (° C.), to obtain a third film, the second film having a shrinkage percentage in at least one direction at (Tg+30)° C. of 5% or more and 50% or less; heating the third film to Tg° C. or higher and (Tg+3)° C. or lower to obtain a fourth film; and heating the fourth film to (Tg+50)° C. or higher and (Tm−40)° C. or lower.

Provided is a phase difference film formed of a resin containing a polymer having crystallizability, and having an NZ factor of less than 1. A production method of the phase different film includes: bonding a second film to one or both surfaces of a first film formed of a resin containing the polymer having crystallizability and having a glass transition temperature Tg (° C.) and a melting point Tm (° C.), to obtain a third film, the second film having a shrinkage percentage in at least one direction at (Tg+30)° C. of 5% or more and 50% or less; heating the third film to Tg° C. or higher and (Tg+3)° C. or lower to obtain a fourth film; and heating the fourth film to (Tg+50)° C. or higher and (Tm−40)° C. or lower.

A display medium including a display layer for authenticity identification, wherein the display layer contains a droplet-cured product, and the droplet-cured product contains a resin having cholesteric regularity. The droplet-cured product preferably contains a cured product of a liquid crystal material containing a cholesteric liquid crystal compound. The display layer is preferably a cured product of a coating material containing the droplet-cured product. The display layer may contain plural types of droplet-cured products exhibiting different color tones as the droplet-cured product. The display layer may further contain a metal particle.

A display medium including a display layer for authenticity identification, wherein the display layer contains a droplet-cured product, and the droplet-cured product contains a resin having cholesteric regularity. The droplet-cured product preferably contains a cured product of a liquid crystal material containing a cholesteric liquid crystal compound. The display layer is preferably a cured product of a coating material containing the droplet-cured product. The display layer may contain plural types of droplet-cured products exhibiting different color tones as the droplet-cured product. The display layer may further contain a metal particle.

The present invention relates to the field of magnetic assemblies and processes for producing optical effect layers (OELs) comprising magnetically oriented non-spherical oblate magnetic or magnetizable pigment particles on a substrate. In particular, the present invention relates to magnetic assemblies processes for producing said OELs as anti-counterfeit means on security documents or security articles or for decorative purposes.

The present invention relates to the field of magnetic assemblies and processes for producing optical effect layers (OELs) comprising magnetically oriented non-spherical oblate magnetic or magnetizable pigment particles on a substrate. In particular, the present invention relates to magnetic assemblies processes for producing said OELs as anti-counterfeit means on security documents or security articles or for decorative purposes.

A manufacturing process that allows for the transfer of labels formed from polarizer film to end-use products. The polarizer film is covered by a masking layer that is typically die cut to create the labels from the continuous sheet of film. Here, an additional covering layer (or layers) of a relatively stiff material is disposed over the masking layer. The addition of the covering layer results in the processed polarizer film being less susceptible to damage (related to unwanted bending) during further processing and/or shipment. Advantageously, the covering layer improves the ability to remove individual labels from the film, particularly with respect to attempting to peel off the thin masking layer.

The present disclosure provides an electronic badge and a housing for the same. The housing includes: a rear case defining a main board cavity, and formed with a display opening in communication with the main board cavity and a profile card receiving slot located outside the main board cavity; and a front case detachably disposed on the rear case to enclose the profile card receiving slot or both the display opening and the profile card receiving slot, a portion of the front case opposite the profile card receiving slot or both the display opening and the profile card receiving slot being made of a transparent material.