JP2000276034A5 - - Google Patents

Description

[Claims]
1. A resin composition layer for forming a volume hologram is laminated on a base material, and at least the former between the base material and the resin composition layer for forming a volume hologram or on the resin composition layer for forming a volume hologram. The transition control layer is laminated, and at least one of the transition control layer and the volume hologram-forming resin composition layer contains a transitional substance that migrates between the two layers due to a concentration difference between the two layers. Material for forming holograms.
2. The hologram-forming material according to claim 1, wherein the transition control layer is made of a constituent component equivalent to or similar to that contained in the volumetric hologram-forming resin composition.
3. The hologram-forming material according to claim 1, wherein the transition control layer is provided only between the base material and the volume hologram-forming resin composition layer.
4. The hologram according to claim 1, wherein the transition control layer is provided both between the base material and the volume hologram-forming resin composition layer and on the volume hologram-forming resin composition layer. Forming material.
5. A resin composition layer for forming a volume hologram and a transition control layer are sequentially laminated on a base material, and in at least one of the transition control layer and the resin composition layer for forming a volume hologram, in both layers. A hologram-forming material characterized by containing a transitional substance that migrates between the two layers due to a difference in concentration.
6. Transition to at least the former step of forming a volume hologram-forming resin composition layer on a base material and between the base material and the volume hologram-forming resin composition layer or on the volume hologram-forming resin composition layer. A step of forming a control layer is performed, and then the hologram is exposed, and after the exposure, a transition is caused. Both layers are formed on at least one of the transition control layer and the volume hologram forming resin composition layer. A method for producing a hologram, which comprises a transitional substance that migrates between both layers due to a difference in concentration within the hologram.
7. The transition control layer is formed only between the base material and the volume hologram forming resin composition layer.Claim 6Hologram manufacturing method.
8. The transition control layer is formed both between the base material and the volume hologram forming resin composition layer and on the volume hologram forming resin composition layer.Claim 6Hologram manufacturing method.
9. A step of forming a resin composition layer for forming a volume hologram on a base material and a step of forming a transition control layer are sequentially performed, and then the hologram is exposed, and after the exposure, migration is caused. A method for producing a hologram, wherein either the volume hologram-forming resin composition layer or the migration control layer contains a transitional substance that migrates between the two layers due to a difference in concentration between the two layers.

In the invention of claim 1, a volume hologram forming resin composition layer is laminated on a base material, and at least between the base material and the volume hologram forming resin composition layer or on the volume hologram forming resin composition layer. The transition control layer is laminated on the former, and at least one of the transition control layer and the volume hologram forming resin composition layer contains a transitional substance that migrates between the two layers due to a concentration difference between the two layers. It relates to a characteristic hologram forming material.
The invention of claim 2 relates to a hologram-forming material in which the transition control layer is the same as or similar to the constituent components contained in the volumetric hologram-forming resin composition.

The invention of claim 3 relates to a hologram forming material having a transition control layer only between a base material and a volume hologram forming resin composition layer in claims 1 and 2.

The invention of claim 4 is for hologram formation, wherein the transition control layer is provided both between the base material and the volume hologram-forming resin composition layer and on the volume hologram-forming resin composition layer in claims 1 and 2. It is about materials.

In the invention of claim 5, the resin composition layer for forming a volume hologram and the transition control layer are sequentially laminated on the base material, and both layers are formed on at least one of the transition control layer and the resin composition layer for forming a volume hologram. The present invention relates to a hologram-forming material characterized by containing a transitional substance that migrates between the two layers due to a difference in concentration within.

The invention of claim 6 is a step of forming a volume hologram forming resin composition layer on a base material and at least the former between the base material and the volume hologram forming resin composition layer or on the volume hologram forming resin composition layer. The process of forming the transition control layer is performed, and then the hologram is exposed, and after the exposure, the transition is caused. Therefore, at least one of the transition control layer and the volume hologram forming resin composition layer. The present invention relates to a method for processing a hologram, which is characterized by containing a transitional substance that migrates between the two layers due to a difference in concentration between the two layers.

The invention of claim 7, in claim 6, to a processing method of a hologram for forming a transition control layer only between the substrate and the volume hologram forming resin composition layer.

The invention of claim 8, in claim 6, relates to the processing method of a hologram for forming a transition control layer both during and volume hologram forming resin composition layer between the substrate and the volume hologram forming resin composition layer Is.

In the invention of claim 9 , the step of forming the resin composition layer for forming a volume hologram on the base material and the step of forming the transition control layer are sequentially performed, and then the hologram is exposed, and after the exposure, the transition is caused. A method for processing a hologram, wherein either the volume hologram-forming resin composition layer or the migration control layer contains a transitional substance that migrates between the two layers due to a concentration difference between the two layers. It is about.

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【Effect of the invention】
According to the invention of claim 1, since the transfer of the transferable substance can be controlled after the hologram is formed, the thickness of the hologram layer can be set to a desired state.
According to the invention of claim 2, the effect of the invention of claim 1 is obtained even if a substance equivalent to or similar to the constituent component contained in the resin composition for forming a volume hologram is used as the transferable substance of the transition control layer. Is obtained.

According to the invention of claim 3 , in addition to the effect of the invention of claims 1 and 2 , the transfer of the transferable substance can be controlled between the lower layer of the hologram layer and the lower layer of the hologram layer.

According to the invention of claim 4 , in addition to the effects of the inventions of claims 1 and 2 , the transferable substance can be transferred between both the lower layer and the upper layer of the hologram layer. It is also efficient in stopping the transition.

According to the invention of claim 5 , the transfer of the transferable substance can be controlled with the upper layer of the hologram layer. Since this type can form a transition control layer after exposure, there is no risk of optical trouble during exposure, and by adjusting the adhesive strength with the lower layer, migration is performed after use. The control layer can be peeled off.

According to the sixth aspect of the present invention, the migration of the transitional substance can be controlled after the hologram is formed, including the direction of migration and the stop of migration, so that the thickness of the hologram layer can be set to a desired state.

According to the invention of claim 7 , in addition to the effect of the invention of claim 6 , the transfer of the transferable substance can be controlled with the lower layer of the hologram layer.

According to the invention of claim 8 , in addition to the effect of the invention of claim 6 , the transferable substance can be transferred between both the lower layer and the upper layer of the hologram layer. It is also efficient to stop.

According to the invention of claim 9 , the transfer of the transferable substance can be controlled with the upper layer of the hologram layer. According to this method, since the transition control layer can be formed after exposure, there is no risk of optical trouble occurring during exposure, and by adjusting the adhesive strength with the lower layer, migration is performed after use. The control layer can be peeled off.