Holographic-stereogram-forming apparatus, diffusing member, and holographic-stereogram-forming method

What is claimed is: 1. A holographic-stereogram-forming apparatus comprising: a laser beam source configured to generate a laser beam to be split into an object beam and a reference beam, the object beam being applied to a hologram recording medium; a display configured to display an original image corresponding to a substantially strip-shaped holographic element constituting a holographic stereogram containing parallax information in a horizontal direction; a diffusing unit provided on a light-emission side of the display and including a plurality of optical elements having different thicknesses in a direction of light transmission, the optical elements being arranged side by side in the horizontal direction and in a vertical direction in a matrix, the optical elements each having a substantially rectangular shape with a vertical length being shorter than a horizontal length, the diffusing unit being configured to diffuse the object beam more widely in the vertical direction than in the horizontal direction, the object beam to be diffused by the diffusing unit being generated by the display; and a condensing unit configured to condense the object beam diffused by the diffusing unit on the hologram recording medium. 2. The holographic-stereogram-forming apparatus according to claim 1 , wherein, supposing that a vertical length and a horizontal length of each of pixels included in the display are each denoted by d, the optical elements of the diffusing unit each have a horizontal length d 2 that is longer than or equal to the length d. 3. The holographic-stereogram-forming apparatus according to claim 1 , wherein the plurality of optical elements of the diffusing unit are configured to cause randomly different phase shifts. 4. The holographic-stereogram-forming apparatus according to claim 1 , wherein the diffusing unit is provided between the display and the condensing unit. 5. The holographic-stereogram-forming apparatus according to claim 1 , wherein the holographic-stereogram-forming apparatus is configured without any diffusing plate being provided immediately in front of the hologram recording medium. 6. The holographic-stereogram-forming apparatus according to claim 1 , wherein the holographic-stereogram-forming apparatus is configured without any diffusing plate being provided between the condensing unit and the hologram recording medium. 7. The holographic-stereogram-forming apparatus according to claim 1 , wherein each one of the plurality of optical elements has one respective prescribed thickness throughout an entirety of the respective optical element. 8. The holographic-stereogram-forming apparatus according to claim 1 , wherein each one of the plurality of optical elements is configured with one respective prescribed phase shift region throughout an entirety of the respective optical element. 9. A holographic-stereogram-forming method comprising: generating a laser beam to be split into an object beam and a reference beam, the object beam being applied to a hologram recording medium; displaying an original image on a display, the original image corresponding to a substantially strip-shaped holographic element constituting a holographic stereogram containing parallax information in a horizontal direction; diffusing the object beam more widely in the vertical direction than in the horizontal direction, the object beam to be diffused being generated on a display and being transmitted through a plurality of optical elements having different thicknesses in a direction of light transmission, the optical elements being arranged side by side in the horizontal direction and in a vertical direction in a matrix, the optical elements each having a substantially rectangular shape with a vertical length being shorter than a horizontal length; and condensing the diffused object beam on a hologram recording medium.