Display comprising an optical waveguide for displaying an image

1 . A display apparatus for use in displaying an image to a viewer, the apparatus comprising: an optical waveguide arranged to receive image-bearing light into the optical waveguide to guide the received image-bearing light therealong to an output part of the optical waveguide for output therefrom; and, a combiner arranged adjacent to the output part of the optical waveguide for reflecting image-bearing light output by the waveguide in a direction which passes back through the optical waveguide and for allowing light from an external scene to pass through the combiner in said direction through the optical waveguide to combine with said reflected image-bearing light so that said image-bearing light overlays light from said external scene for viewing by a viewer. 2 . A display apparatus according to claim 1 wherein the output part of the optical waveguide is substantially planar and arranged to output said image-bearing light in an output direction which is substantially perpendicular to the plane thereof, and the combiner has a generally planar surface which is orientated obliquely relative to the plane of the output part for said reflecting of image-bearing light obliquely. 3 . A display apparatus according to claim 1 wherein said optical waveguide is substantially planar and said combiner is substantially planar, and the optical waveguide and the combiner are mutually orientated to converge towards each other at or adjacent the output part of the optical waveguide. 4 . A display apparatus according to claim 1 wherein said optical waveguide is substantially transparent to light at optical wavelengths conveying said image-bearing light and said external scene, and said combiner is substantially transparent to light at optical wavelengths conveying said external scene and more reflective than transmissive at optical wavelengths conveying said image-bearing light. 5 . A display apparatus according to claim 4 in which the combiner includes a reflective coating which is predominantly reflective at optical wavelengths conveying said image-bearing light and predominantly transmissive at optical wavelengths conveying said external scene, thereby to increase the reflection of image-bearing light therefrom and the transmission of light conveying said external scene therethrough. 6 . A display apparatus according to claim 4 in which the combiner includes an anti-reflective coating which is predominantly transmissive at optical wavelengths conveying said external scene, thereby to increase the efficiency of transmission of light conveying said external scene therethrough. 7 . A display apparatus according to claim 1 in which the waveguide includes an input diffraction grating for receiving image-bearing light and directing the received image-bearing light into the optical waveguide by diffraction, for guiding therealong. 8 . A display apparatus according to claim 7 in which the waveguide includes an intermediate diffraction grating between the input diffraction grating and the output part for receiving image-bearing light from the input diffraction grating and expanding the image-bearing light in a first dimension generally transverse to the direction of guidance of light towards the output part. 9 . A display apparatus according to claim 8 in which the output part includes an output diffraction grating for expanding the image-bearing light in a second dimension generally transverse to the first dimension, and to output the result. 10 . A display apparatus according to claim 1 including an image source arranged for providing an image-bearing light output, for input to the optical waveguide. 11 . A display apparatus according to claim 1 in which the optical waveguide is a plate-like waveguide arranged to guide light therealong by total internal reflection between opposing substantially parallel sides of the waveguide. 12 . A display apparatus according to claim 1 in which the optical waveguide is a rod-like waveguide arranged to guide light therealong by total internal reflection between opposing substantially parallel sides of the waveguide. 13 . A projection display apparatus comprising the display apparatus of claim 1 for projecting said image-bearing light and light from a said external scene concurrently to a viewer so that said image-bearing light overlays light from said external scene for viewing by the viewer. 14 . An aircraft or vehicle including a transparent canopy or windscreen and a display apparatus according to claim 1 wherein the combiner is located and arranged to allow an occupant to view through the combiner and through the optical waveguide said external scene, said external scene being a scene external to the aircraft or vehicle, so that said image-bearing light overlays light from said external scene. 15 . A method for displaying an image to a viewer, the method comprising: receiving image-bearing light into an optical waveguide to guide the received image-bearing light therealong to an output part of the optical waveguide and outputting the received image-bearing light therefrom; reflecting, by a combiner arranged adjacent to the output part of the optical waveguide, image-bearing light output by the waveguide in a direction which passes back through the optical waveguide and allowing light from an external scene to pass through the combiner in said direction through the optical waveguide to combine with said reflected image-bearing light so that said image-bearing light overlays light from said external scene for viewing by a viewer. 16 . (canceled) 17 . (canceled) 18 . An aircraft or vehicle according to claim 14 wherein the display apparatus is a projection display apparatus. 19 . A display apparatus for use in displaying an image to a viewer, the apparatus comprising: an optical waveguide arranged to receive image-bearing light into the optical waveguide to guide the received image-bearing light therealong to an output part of the optical waveguide for output therefrom; an input diffraction grating for receiving image-bearing light and directing the received image-bearing light into the optical waveguide by diffraction, for guiding therealong; and a combiner arranged adjacent to the output part of the optical waveguide for reflecting image-bearing light output by the waveguide in a direction which passes back through the optical waveguide and for allowing light from an external scene to pass through the combiner in said direction through the optical waveguide to combine with said reflected image-bearing light so that said image-bearing light overlays light from said external scene for viewing by a viewer; wherein said optical waveguide is substantially transparent to light at optical wavelengths conveying said image-bearing light and said external scene, and said combiner is substantially transparent to light at optical wavelengths conveying said external scene and more reflective than transmissive at optical wavelengths conveying said image-bearing light. 20 . A display apparatus according to claim 19 in which the waveguide includes an intermediate diffraction grating between the input diffraction grating and the output part for receiving image-bearing light from the input diffraction grating and expanding the image-bearing light in a first dimension generally transverse to the direction of guidance of light towards the output part. 21 . A display apparatus according to claim 20 in which the output part includes an output diffraction grating for expan