WAVEGUIDES
First Claim
Patent Images
1. A waveguide for a projection display, comprising:
- a substrate of light transmissive material having two opposed substantially parallel faces, the substrate of material being arranged to transmit light within the substrate of material, between the parallel faces, under total internal reflection;
an output grating element arranged within the substrate of material to diffract a portion of light incident thereon out of the substrate of material and to allow the remainder of the light to be transmitted within the substrate of material under total internal reflection; and
an optical layer arranged on each of the parallel faces, the optical layer being arranged to reduce the critical angle required for total internal reflection of light within the substrate of material so that the number of interactions between light transmitted within the substrate and the grating element can be increased.
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Accused Products
Abstract
A waveguide 112 includes a substrate of material 134 having optical layers 148, 152 applied to two external surfaces 146, 150. This reduces the critical angle c5 of the substrate of material 134 to provide greater interaction between image bearing light following a light path 140 and a grating element 142 and/or a greater total field of view 160, when compared to the total field of view 132 of a prior art waveguide 110, that is capable of being transmitted by the waveguide 112. Such a waveguide 112 can be used in a projection display.
169 Citations
14 Claims
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1. A waveguide for a projection display, comprising:
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a substrate of light transmissive material having two opposed substantially parallel faces, the substrate of material being arranged to transmit light within the substrate of material, between the parallel faces, under total internal reflection; an output grating element arranged within the substrate of material to diffract a portion of light incident thereon out of the substrate of material and to allow the remainder of the light to be transmitted within the substrate of material under total internal reflection; and an optical layer arranged on each of the parallel faces, the optical layer being arranged to reduce the critical angle required for total internal reflection of light within the substrate of material so that the number of interactions between light transmitted within the substrate and the grating element can be increased. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
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14-15. -15. (canceled)
Specification