Claims
- 1. An optical film comprising an optical element capable of forming a spatial distribution of light transmittance, said optical element comprising a film for microlenses and microlenses formed thereon, and a light shield layer positioned on an opposite side of the optical element, wherein said light shield layer is composed of silver or a compound containing silver, which changes light transmittance permanently depending on irradiation of an energy beam, and has light transmitting regions substantially at positions wherein incident light passed through the microlenses is focused on the film for microlenses and light shielding regions at positions other than the light transmitting regions, said light shielding regions having a smaller light transmittance than the light transmitting regions.
- 2. An optical film according to claim 1, wherein the compound containing silver is silver halide.
- 3. An optical film according to claim 1, wherein the light shield layer is composed of a gelatin material dispersing therein the silver or compound containing silver.
- 4. An optical film comprising an optical element capable of forming a spatial distribution of light transmittance, said optical element comprising a film for microlenses and microlenses formed thereon, and a light shield layer formed on one side of a film for light shield layer, and containing light transmitting regions and light shielding regions, the side having no microlenses of said film for microlenses and the side having no light shield layer of said film for light shield layer being bonded using an adhesive,wherein said light shield layer is composed of silver or a compound containing silver, which changes light transmittance permanently depending on irradiation of an energy beam, and has the light transmitting regions substantially at positions wherein incident light passed through the microlenses is focused on the film for microlenses and the light shielding regions at positions other than the light transmitting regions, said light shielding regions having a smaller light transmittance than the light transmitting regions.
- 5. An optical film comprising a film for microlenses, microlenses formed on one side thereof, and a light shield layer formed on an opposite side of the film for microlenses,wherein said light shield layer is composed of silver or a compound containing silver, which changes light transmittance permanently depending on irradiation of an energy beam, and has light transmitting regions substantially at positions wherein incident light passed through the microlenses is focussed on the film for microlenses and light shielding regions at positions other than the light transmitting regions, said light shielding regions having a smaller light transmittance than the light transmitting regions.
- 6. An optical film comprising microlenses formed on one side of a film for microlenses, and a light shield layer formed on one side of a film for light shield layer, and containing light transmitting regions and light shield regions, the side having no microlenses of said film for microlenses and the side having no light shield layer of said film for light shield layer being bonded using an adhesive,wherein said light shield layer is composed of silver or a compound containing silver, which changes light transmittance permanently depending on irradiation of an energy bean, and has light transmitting regions substantially at positions wherein incident light passed through the microlenses is focussed on the film for microlenses and light shielding regions at positions other than the light transmitting regions, said light shielding regions having a smaller light transmittance than the light transmitting regions.
- 7. An optical film according to claim 1, wherein the light transmitting regions and light shielding regions are regions self-aligned to the microlenses due to a reversally-developed light shield layer using the incident light passed through the microlenses and focused on the light shield layer.
- 8. An optical film according to claim 4, wherein the light transmitting regions and light shielding regions are regions self-aligned to the microlenses due to a reversally-developed light shield layer using the incident light passed through the microlenses and focused on the light shield layer.
- 9. An optical film according to claim 5, wherein the light transmitting regions and light shielding regions are regions self-aligned to the microlenses due to a reversally-developed light shield layer using the incident light passed through the microlenses and focused on the light shield layer.
- 10. An optical film according to claim 6, wherein the light transmitting regions and light shielding regions are regions self-aligned to the microlenses due to a reversally-developed light shield layer using the incident light passed through the microlenses and focused on the light shield layer.
Priority Claims (1)
Number |
Date |
Country |
Kind |
11-294876 |
Oct 1999 |
JP |
|
CROSS REFERENCE TO RELATED APPLICATION
This is a continuation of U.S. application Ser. No. 09/688,876, filed Oct. 17, 2000, the subject matter of which is incorporated by reference herein.
US Referenced Citations (1)
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Name |
Date |
Kind |
5256337 |
Reid et al. |
Oct 1993 |
A |
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Continuations (1)
|
Number |
Date |
Country |
Parent |
09/688876 |
Oct 2000 |
US |
Child |
10/234099 |
|
US |