Abstract: The security document, such as a passport, comprises a lightguide having an incoupler structure and in outcoupler structure. The outcoupler structure is sparse in the sense that any part of the protective area is close to a part of the outcoupler structure. However, to secure a large protective area with a limited amount of incoupled light, outcoupler structure covers no more than 20% of the protective area. This allows to protect a large area of the security document, such as a photograph or other personalized information, by means of the lightguide.
Abstract: The security document, such as a passport, comprises a lightguide having an incoupler structure and in outcoupler structure. The outcoupler structure is sparse in the sense that any part of the protective area is close to a part of the outcoupler structure. However, to secure a large protective area with a limited amount of incoupled light, outcoupler structure covers no more than 20% of the protective area. This allows to protect a large area of the security document, such as a photograph or other personalized information, by means of the lightguide.
Abstract: The identification document comprises a personalized area carrying owner-specific information, such as an owner's name data or photograph, The personalized area is overlapped by a lightguide, The lightguide comprises a primary incoupler and a primary outcoupler on opposite sides of the personalized area. Any attempt to tamper with the personalized area may lead to a damage in the lightguide, which can easily be detected by coupling light into the primary incoupler and testing the light coupled out by the primary outcoupler.
Abstract: An anti-forgery security device comprises an optical waveguide, an out-coupler having first macroscopically repetitive elements and being arranged to couple out light from the waveguide, and a light processing structure comprising second macroscopically repetitive elements and being arranged to process light coupled out by said out-coupler. The first and second elements are arranged on opposite sides of the waveguide. The device generates e.g. Moire and/or parallax effects from light propagating along the waveguide. Third, absorbing elements may be added to generate effects without light in the waveguide.
Type:
Application
Filed:
November 16, 2018
Publication date:
January 13, 2022
Applicant:
ORELL FÜSSLI AG
Inventors:
Martin EICHENBERGER, Sylvain CHOSSON, Guillaume BASSET