TH21770B - Optical disc with multiple layers - Google Patents

Abstract

DC60 (22/08/49) superior quality simulation production possible. In optical discs with Multiple layers with the first and second information layers This provides a structure in which the first and second layers of information will be stacked. To create a working disc Later, the first layer of information contains a metallic reflection film. Reflection factor greater than 90% relative to light for the first model with a wavelength range of 770nm ~ 830nm and the second information layer. Are structured so that there is a semi-transparent reflection film. Where the ratio ns2 / ns1 between the corresponding real numbers Together of the refractive index ns1 against the light for producing the first simulated above. For a second simulation with a wavelength range of 615 nm ~ 655 nm, it is greater than 1.05. In optical discs with Multiple layers with the first and second information layers This provides a structure in which the first and second layers of information will be stacked. To create a working disc Later, the first layer of information contains a metallic reflection film. Reflection factor greater than 90% relative to light for the first simulation with a wavelength of 770 mm, 830 mm, and the second information layer. Are structured so that there is a semi-transparent reflection film. Where the ratio ns2 / ns1 between the corresponding real numbers Together of the refractive index ns1 against the light for producing the first simulated above. And the refractive index ns2 relative to light for a second model with a wavelength of 615 mm 655 mm is greater than 1.05.

Claims (2)

1.Optical disc with multiple layers In which there is the first layer of information and The second information is stacked. To create a thin optical disc consisting of a metallic reflective film formed in the first layer of information and which has a reflection factor greater than 90% relative to the production light. Simulated one with a wavelength of 770 mm 830 mm and a semi-transparent reflection film created in the second layer of information. Where the ns2 / ns1 ratio between the corresponding real numbers of the refractive index ns1 relative to the light For producing the first model And the refractive index, ns2, relative to light, for producing a second model at It has a wavelength that is 615 mm. 655 mm is greater than 1.05. 2. A multi-layered optical disc that contains the first and the first layer of information. The second information is stacked. To create a thin optical disc consisting of a metallic reflective film formed in the first layer of information and which has a reflection factor greater than 90% relative to the production light. Simulated one with a wavelength of 780? 820 mm and a semi-transparent reflection film created in the second layer of information. And which has the part that Is an image of the index of refraction. That is relative to the aforementioned model production light of less than 0.05 3. The multi-layer optical disc as described in claim 1, the part being The imaginary number of the refractive index of such a semi-transparent reflective film. Relative to light For the production of one such replica, it is younger than 0.05. 4. Multi-layer optical disc as described in Claim 1. Reflect such semi-transparent Will be made up of an amorphous film Created from a single material from a material Each of the amorphous SiH, amorphous SiO, and the amorphous SiN or composite from these materials. More than two types plus amorphous Si 5. Multi-layer optical disc as described in claim 2, the film Reflect such semi-transparent It is made up of amorphous films formed from a single material from each material, among which amorphous SiH, amorphous SiO and amorphous SiN or composites from these materials. More than two types plus amorphous Si 6. Multi-layer optical disc, as described in claim 3, the film Reflect such semi-transparent Will be made up of an amorphous film formed from a single material from the material Each of the amorphous SiH, amorphous SiO, and the amorphous SiN or composite from these materials. More than two types plus amorphous Si. 7. Multi-layer optical disc as described in Claim 1, the film thickness of such semi-transparent reflective film. The film is set to be less than 22 mm. 8. Multi-layer optical discs as specified in claim 2, the film thickness of such semi-transparent reflective film. 9. The multi-layer optical disc as specified in claim 3, the film thickness of the semi-transparent reflective film is set to be less than 22 mm. The multi-layer optical disc as described in claim 1, which is the first plastic interrupter, is set to be less than 22 mm. Which has the first layer of information And a second plastic substrate with such a second layer of information Are adhered to each other by transparent and refractive adhesives.Each pair of the first and second substrates is made less than 50 mm 1. 1. The multi-layer optical disc as described in claim 2, which is the first plastic substrate. Which has the first layer of information And a second plastic substrate with that second layer of information Are adhered to each other by transparent and refractive adhesives.Each pair of the first and second substrates are made less than 50 mm 1. 2. The multi-layer optical disc as described in claim 3, which is the first plastic substrate. Which has the first layer of information And a second plastic substrate with such a second layer of information To be bonded together with a transparent adhesive and refraction, each of the first and second substrates pairs are made less than 50 mm.