RU98110055A - OPTICALLY CONTROLLED DEVICE (OVD), AND ALSO METHOD AND DEVICE FOR MANUFACTURING, BY RECORDING, OPTICALLY CONTROLLED DEVICE (OVD) - Google Patents

Claims (8)

1. An optically controlled device containing a plurality of diffraction pixels, each pixel corresponding exclusively to the phase component of the hologram resulting from the Fourier transform for the map of viewing angles associated with each of these pixels; wherein said plurality of pixels includes at least two sets of pixels, wherein each pixel of a first set of pixels corresponding to a first region (OA) is represented by a hologram resulting from a Fourier transform for a first map of viewing angles (PA), and each pixel of a second set corresponding to the second region (OB), is represented by a hologram that is the result of the Fourier transform for the second map of viewing angles (RV).  2. The optically controlled device according to claim 1, characterized in that said plurality of pixels comprises a third set of pixels corresponding to a region resulting from the intersection of the first region (OA) and the second region (OV), wherein each pixel of the third population is represented by a hologram, which is the result of the Fourier transform for the totality of the aforementioned first and second maps of viewing angles (RA, RV).  3. An optically controlled device according to claim 1, characterized in that at least one such pixel is located near the rainbow hologram.  4. A manufacturing method, by recording, an optically controlled device (OVD), characterized in that after opening the shutter (2), the expanded and converging light beam (L) of the laser illuminates the image (6) of the pixel map obtained by graphically reproducing the phase determined as a result of the Fourier transform for the map of viewing angles associated with this set of pixels, and by using the lens (4) this map is reduced, by photographic method, to a predetermined size, and the shutter interrupts the light howl laser beam (L); then the photosensitive material, in which an optically controlled device (OVD) is made by recording, is moved to the position corresponding to the next pixel using the movable table (5) of the coordinator (XY) and the whole procedure is repeated until exposure for pixels of all populations.  5. The method according to p. 4, characterized in that the converging light beam (L) of the laser after passing through the image (6) of the pixel map is converted by a filter (7) installed in the plane of formation of the image lens (6), which is the result of the Fourier transform.  6. The method according to p. 4, characterized in that the Fourier transform for the map of the viewing angles is carried out using an iterative Fourier transform algorithm.  7. A device for manufacturing, by recording, an optically controlled device (OVD) comprising a laser, a shutter, beam expansion means, a lens and a movable coordinate table (XY), characterized in that the image (6) of the pixel map is the result of a graphical phase reproduction determined as a result of the Fourier transform for the map of the viewing angles associated with this set of pixels is formed between the beam expansion means (3) and the lens (4).  8. The device according to claim 7, characterized in that a filter (7) is installed in front of the lens (4), which converts the Fourier spectrum for the image of the pixel (6).