Patent ID: 8830547

Claim:
An authentication hologram fabrication process, comprising: directing illumination light to a first-stage hologram in which interference fringes of scattered from and reflected off a 3D object and first reference light are recorded to generate diffracted light thereby reconstructing an image of the 3D object; letting the diffracted light and second reference light co-entered in a second-stage hologram-recording material positioned near the reconstructed image of the 3D object to prepare a second-stage hologram as a 3D object hologram master; locating a diffraction grating pattern master in which an added information pattern portion is added to a transparent film as a constant-pitch diffracting grating in close contact with the 3D object hologram master into an assembly and locating another hologram-recording material above or below the assembly; and directing illumination light to a side of the another hologram-recording material to cause diffracted light from the diffraction grating pattern master and the 3D object hologram master and the directed illumination light to interfere in the another hologram-recording material, wherein a field of vision of the image of the 3D object is formed wider than a field of vision of a hologram mirror pattern of the first-stage hologram, a luminance of the hologram mirror pattern of the first-stage hologram is formed higher than a luminance of the image of the 3D object, and [(the luminance of the hologram mirror pattern)−(luminance of the reconstructed image of the 3D object)]/(luminance difference identification threshold)≧1 is satisfied between the luminance of the hologram mirror pattern derived from any of the hologram mirror pattern master and the diffraction grating pattern master to visually recognize the hologram mirror pattern derived from a hologram mirror pattern master, and the hologram mirror pattern derived from the diffraction grating pattern master from the reconstructed image of the 3D object.