WAVEGUIDES

US 20110242670A1
Filed: 12/10/2009
Published: 10/06/2011
Est. Priority Date: 12/12/2008
Status: Active Grant

First Claim

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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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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.

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14 Claims

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.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
- - 2. A waveguide, as claimed in claim 1, comprising means for inputting light into the substrate at angles of incidence relative to the substantially parallel faces which are between a critical angle of the substrate without the optical layer and a reduced critical angle of the substrate with the optical layer.
  - 3. A waveguide, as claimed in claim 1, wherein the optical layer is selected to reduce Fresnel reflectance of light at the faces of the substrate having an angle of incidence which is between the critical angle of the substrate with the optical layer and a normal axis when light is diffracted out of the substrate by the output grating element.
  - 4. A waveguide, as claimed in claim 1, wherein the optical layer comprises a plurality of layers in which alternate layers have relatively high and relatively low refractive indices.
  - 5. A waveguide, as claimed in claim 4, wherein the or each relatively high refractive index layer is made from TiO2 and/or the or each relatively low refractive index layer is made from MgF2.
  - 6. A projection display, for displaying an image to an observer, comprising:
    - first and second waveguides as claimed in claim 1;
      
      an image-providing light source device arranged to generate an image and to inject image bearing light into the first waveguide;
      
      a first said output grating element associated with the first waveguide arranged to direct the image bearing light internally along the first waveguide under total internal reflection and via which the image bearing light is outputted from the first waveguide;
      
      an input grating element arranged to receive the image bearing light from the first waveguide and to inject the image bearing light along the second waveguide under total internal reflection; and
      
      a second said output grating element arranged in the second waveguide to diffract received image bearing light out of the second waveguide towards an observer;
      
      wherein the optical layers of the first and second waveguides reduce the critical angle required for total internal reflection of image bearing light within the waveguides to increase the number of interactions between the light propagating within the first waveguide and the first output grating element and between the light propagating within the second waveguide and the second output grating element.
  - 7. A projection display as claimed in claim 6, wherein one or more of the grating elements are holographic optical elements or semi-reflective surfaces.
  - 8. A projection display, as claimed in claim 6, wherein the first waveguide is plate-like, the second waveguide is plate-like and the first and second waveguides are arranged substantially parallel to one another.
  - 9. A projection display, as claimed in claim 6, wherein the first waveguide and the second waveguide are arranged substantially in the same plane.
  - 10. A projection display, as claimed in claim 8, wherein the first waveguide and the second waveguide are formed within a single piece of material.
  - 11. A projection display, as claimed in claim 6, wherein the first waveguide is rod-like, the second waveguide is plate-like and the first and second waveguide are arranged such the image bearing light exits the first waveguide along a longitudinal axis of the first waveguide and enters the second waveguide to propagate along a propagation axis of the second waveguide.
  - 12. A head up display, or helmet mounted display, or head mounted display including a waveguide as claimed in claim 1.
  - 13. A head up display, or helmet mounted display, or head mounted display including a projection display as claimed in any of claim 6.

14-15. -15. (canceled)

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Current Assignee
BAE Systems Plc
Original Assignee
BAE Systems Plc
Inventors
Simmonds, Michael David

Granted Patent

US 8,654,420 B2
Time in Patent Office

Days
Field of Search
US Class Current

359/633
CPC Class Codes

G02B 2027/0123   comprising devices increasi...

G02B 27/01   Head-up displays

G02B 27/0101   characterised by optical fe...

G02B 27/0172   characterised by optical fe...

G02B 5/0833   comprising inorganic materi...

G02B 6/00   Light guides; Structural de...

G02B 6/0031   Reflecting element, sheet o...

G02B 6/0035   provided on the surface of ...

G02B 6/0055   Reflecting element, sheet o...

WAVEGUIDES

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

169 Citations

14 Claims

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WAVEGUIDES

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

169 Citations

14 Claims

Specification

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Solutions

Use Cases

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