Optical element

The invention claimed is: 1. An optical element comprising a transmission diffraction portion, which includes a plurality of reflective portions arranged at equal intervals along a given axis, wherein each of the reflective portions reflects light included in visible light, and the light reflected by the reflective portions forms a reflection image, and a plurality of transmissive portions, each sandwiched by two corresponding reflective portions that are adjacent to each other along the given axis, wherein the transmissive portions transmit the visible light, wherein at least part of each reflective portion forms the reflection image by rendering a reflection angle of the light reflected by the reflective portions different from an angle of light incident on the reflective portions, the transmission diffraction portion forms a plurality of diffraction images having different colors with diffraction light that is produced by diffracting light transmitted through the transmissive portions in a predetermined direction, at least part of each reflective portion has a non-periodic uneven structure, the non-periodic uneven structure scatters visible light incident on the non-periodic uneven structure, and scattered light emanating from the non-periodic uneven structure forms the reflection image. 2. The optical element according to claim 1 , comprising: a first element portion including the transmission diffraction portion; and a second element portion including a plurality of scattering portions, which scatters visible light, and a second transmissive portion, which occupies space between the scattering portions, wherein a ratio between a sum of areas of all the reflective portions and a sum of areas of sections in the first element portion that transmit the visible light is a first area ratio, a ratio between a sum of areas of all the scattering portions and an area of the second transmissive portion is a second area ratio, the first area ratio is equal to the second area ratio, and light that is transmitted by the second element portion differs from light that is transmitted by the first element portion. 3. An optical element comprising a transmission diffraction portion, which includes a plurality of reflective portions arranged at equal intervals along a given axis, wherein each of the reflective portions reflects light included in visible light, and the light reflected by the reflective portions forms a reflection image, and a plurality of transmissive portions, each sandwiched by two corresponding reflective portions that are adjacent to each other along the given axis, wherein the transmissive portions transmit the visible light, wherein at least part of each reflective portion forms the reflection image by rendering a reflection angle of the light reflected by the reflective portions different from an angle of light incident on the reflective portions, the transmission diffraction portion forms a plurality of diffraction images having different colors with diffraction light that is produced by diffracting light transmitted through the transmissive portions in a predetermined direction, at least part of each reflective portion has a periodic uneven structure having a predetermined periodicity, the periodic uneven structure diffracts visible light incident on the periodic uneven structure in a predetermined direction, and diffraction light emanating from the periodic uneven structure forms the reflection image. 4. The optical element according to claim 3 , wherein a section having the periodic uneven structure is a first periodic section, each reflective portion further includes a second periodic section having an uneven structure that differs from the first periodic section in periodicity, and visible light incident on each reflective portion is diffracted by the first periodic section in a direction that differs from a direction in which the visible light is diffracted by the second periodic section. 5. The optical element according to claim 1 , wherein the given axis is a first axis, at least part of each reflective portion has a semicylindrical surface extending along a second axis that intersects the first axis, the semicylindrical surface scatters visible light incident on the semicylindrical surface, and scattered light emanating from the semicylindrical surface forms the reflection image. 6. The optical element according to claim 5 , comprising: a first element portion including the transmission diffraction portion; and a second element portion including a plurality of scattering portions, which scatters visible light, and a second transmissive portion, which occupies space between the scattering portions, wherein a ratio between a sum of areas of all the reflective portions and a sum of areas of sections in the first element portion that transmit the visible light is a first area ratio, a ratio between a sum of areas of all the scattering portions and an area of the second transmissive portion is a second area ratio, the first area ratio is equal to the second area ratio, and light that is transmitted by the second element portion differs from light that is transmitted by the first element portion. 7. The optical element according to claim 6 , wherein the scattering portions are located irregularly in the second element portion. 8. The optical element according to claim 1 , wherein each reflective portion and a corresponding one of the transmissive portions that is adjacent to the reflective portion along the given axis form one transmission periodic portion, and a width of the transmission periodic portion along the given axis is greater than 0.20 μm and less than 0.35 μm. 9. The optical element according to claim 1 , wherein each reflective portion and a corresponding one of the transmissive portions that is adjacent to the reflective portion along the given axis form one transmission periodic portion, and a width of the transmission periodic portion along the given axis is between 0.35 μm and 20 μm inclusive. 10. The optical element according to claim 3 , wherein each reflective portion includes depressions and projections that are arranged successively and alternately along a periodicity axis, each depression and a corresponding one of the projections that is adjacent to the depression along the periodicity axis form one reflection periodic portion, and a width of the reflection periodic portion along the periodicity axis is greater than 0.20 μm and less than 0.35 μm. 11. The optical element according to claim 3 , wherein each reflective portion includes depressions and projections that are arranged successively and alternately along a periodicity axis, each depression and a corresponding one of the projections that is adjacent to the depression along the periodicity axis form one reflection periodic portion, and a width of the reflection periodic portion along the periodicity axis is between 0.35 μm and 20 μm inclusive. 12. The optical element according to claim 1 , wherein the transmission diffraction portion is one of a plurality of transmission diffraction portions, in each of the transmission diffraction portions, each reflective portion and a corresponding one of the transmissive portions that is adjacent to the reflective portion along the given axis form one transmission periodic portion, and the transmission diffraction portions differ from one another in width of the transmission periodic portions along the given axis. 13. The optical element according to claim 1 , wherein the transmission diffraction portion is one of a plurality of transmission diffraction port