Three-dimensional display, authentication medium, and formation method

What is claimed is: 1 . A three-dimensional display formed by arranging first element cells in which personal identification information is recorded, and second element cells carrying an authentication medium through which the personal identification information is visible, on a laminate sheet, wherein the display includes a first region and a second region formed by arranging a plurality of the first element cells and a plurality of the second element cells; wherein: the first element cells and the second element cells respectively form phase shift structures; in the first region and in the second region, respective three-dimensional structures are formed with spacers interposed between the first element cells and the second element cells; the first region and the second region residing in the three-dimensional structures form coherent and unified three-dimensional images with groups of reconstruction points produced by reflected light from the phase shift structures; a first reconstructed image is produced on a first side of the laminate sheet, at a position apparently separated from the laminate sheet, due to the phase shift structure formed by the first element cells; and a second reconstructed image is produced on a second side of the laminate sheet, at a position apparently separated from the laminate sheet, due to the phase shift structure formed by the second element cells. 2 . A three-dimensional display, wherein the three-dimensional display is configured by combining (a) a first three-dimensional display, which is the three-dimensional display of claim 1 and (b) a second three-dimensional display, which is a three-dimensional display in which a first contour region surrounding a recorded first character, and a second contour region surrounding a recorded second character are arranged on a laminate sheet, wherein a plurality of first element cells in which personal identification information is recorded and a plurality of second element cells carrying an authentication medium through which the personal identification information is visible are arranged in the first contour region and in the second contour region to form respective phase shift structures; wherein: in the first contour region and in the second contour region, the first element cells and the second element cells are arranged in an interleaved manner at a predetermined ratio to form respective three-dimensional structures; the first contour region and the second contour region are visible respectively from first and second sides of the laminate sheet; a reconstructed image derived from the second contour region is produced on the first side of the laminate sheet, at a position apparently separated from the laminate sheet, due to the phase shift structure formed by the first element cells; and a reconstructed image derived from the first contour region is produced on the second side of the laminate sheet, at a position apparently separated from the laminate sheet, due to the phase shift structure formed by the second element cells. 3 . The three-dimensional display of claim 2 , wherein a first marker is provided to the laminate sheet on which the first three-dimensional display is arranged; a second marker is provided to the laminate sheet on which the second three-dimensional display is arranged, wherein a plurality of first element cells in which personal identification information is recorded and a plurality of second element cells carrying an authentication medium through which the personal identification information is visible are arranged in the first contour region and in the second contour region to form respective phase shift structures; in the first contour region and in the second contour region, the first element cells and the second element cells are arranged in an interleaved manner at a predetermined ratio to form respective three-dimensional structures; the first contour region and the second contour region are visible respectively from first and second sides of the laminate sheet; a reconstructed image derived from the second contour region is produced on the first side of the laminate sheet, at a position apparently separated from the laminate sheet, due to the phase shift structure formed by the first element cells; and a reconstructed image derived from the first contour region is produced on the second side of the laminate sheet, at a position apparently separated from the laminate sheet, due to the phase shift structure formed by the second element cells is arranged; and the first three-dimensional display and the second three-dimensional display are combined with each other by bringing the two laminate sheets into alignment using the first marker and the second marker. 4 . The three-dimensional display of claim 3 , wherein the first three-dimensional display and the second three-dimensional display are overlapped and combined with each other. 5 . The three-dimensional display of claim 1 , wherein a relation Z 1 <Z 2 is established between a first distance Z 1 that is a distance from the first side to the first reconstructed image and a second distance Z 2 that is a distance from the second side to the second reconstructed image. 6 . The three-dimensional display of claim 1 , wherein a relation Z 1 >Z 2 is established between a first distance Z 1 that is a distance from the first side to the first reconstructed image and a second distance Z 2 that is a distance from the second side to the second reconstructed image. 7 . The three-dimensional display of claim 1 , wherein the laminate sheet includes a recording surface, the recording surface including, calculated element sections corresponding one-to-one to reconstruction points of the first reconstructed image and the second reconstructed image, and subjected to phase component calculation for light from the individual reconstruction points, a phase angle recording region in which phase angles calculated based on the phase components can be recorded, and a phase angle non-recording region in which the phase angles are not recorded; and the phase angles are recorded in an overlapping region where the calculated element sections overlap with the phase angle recording region. 8 . The three-dimensional display of claim 7 , wherein a plurality of the calculated element sections are provided; a phase component of light from each of the reconstruction points is calculated for a corresponding one of the plurality of calculated element sections; and the calculated phase angle is recorded in the corresponding one of the calculated element sections. 9 . The three-dimensional display of claim 7 , wherein information other than the phase angles is recorded in the phase angle non-recording region. 10 . The three-dimensional display of claim 9 , wherein the information other than the phase angles is information including at least one of light scattering, light reflection, and light diffraction. 11 . The three-dimensional display of claim 7 , wherein the first region includes gradation values as data of a color image expressed by two or more colors, for each of the calculated element sections in terms of the individual colors; and the second region includes gradation values binarized based on the first region, for each of the calculated element sections. 12 . An authentication medium including a laminate in which a transparent outer layer substrate, a phase shift substrate for receiving and modulating illumination light, a transparent intermediate substrate developing colors when exposed to laser light, and a core substrate are laminated, wherein at least a part of the core sub