Segmented imaging directional backlights

The invention claimed is: 1. A directional display device comprising: plural waveguides, wherein each waveguide comprises: an input end arranged to receive input light; a reflective end; first and second, opposed guide surfaces extending between the input end and the reflective end for guiding light along the waveguide from the input end to the reflective end for reflection of the input light back along the waveguide as reflected input light; and sides extending between the opposed guide surfaces and between the input end and the reflective end, wherein the first guide surface is arranged to guide light by total internal reflection, and the second guide surface comprises light extraction features and intermediate regions between the light extraction features, the light extraction features being arranged to deflect the reflected input light in directions allowing exit through the first guide surface as output light, the intermediate regions being arranged to direct light along the waveguide without extraction; and in respect of each of the plural waveguides, an array of light sources disposed at different input positions along the input side of the waveguide and arranged to input input light into the waveguide, a transmissive spatial light modulator, the plural waveguides being arranged in a tiled array alongside each other with the first guide surfaces of the plural waveguides facing the spatial light modulator and the first ends of the plural waveguides on the same side of the array of plural waveguides, the spatial light modulator being arranged to receive and modulate the output light from each of the plural waveguides; the plural waveguides including a first waveguide and a second waveguide that are adjacent, wherein the light extraction features of the second waveguide are shaped differently from the light extraction features of the first waveguide, and, along the sides of the first and second waveguides that are adjacent, the ends of the light extraction features of the second waveguide are aligned angularly with respect to the lateral direction with the ends of the light extraction features of the first waveguide. 2. A directional display device according to claim 1 , wherein in a lateral direction between the sides of the first waveguide, the light extraction features of the first waveguide are curved and have positive optical power with respect to the reflected input light, and in a lateral direction between the sides of the second waveguide, the light extraction features of the second waveguide are curved and have negative optical power with respect to the reflected input light. 3. A directional display device according to claim 1 , wherein the light extraction features of the first waveguide are straight and inclined with respect to a lateral direction between the sides of the first waveguide, and in a lateral direction between the sides of the second waveguide, the light extraction features of the second waveguide are curved and have negative optical power with respect to the reflected input light. 4. A directional display device according to claim 1 , wherein the first waveguide is arranged at one end of the array of plural waveguides. 5. A directional display device according to claim 1 , wherein the reflective end of each of the plural waveguides has positive optical power in the lateral direction. 6. A directional display device according to claim 5 , wherein the reflective end of the first waveguide and the light extraction features of the first waveguide have respective optical axes that are offset from each other in the lateral direction. 7. A directional display device according to claim 1 , wherein the sides of the first and second waveguides that are adjacent are separated by a medium having a lower refractive index than the first and second waveguides. 8. A directional display device according to claim 7 , wherein the medium that separates the sides of the first and second waveguides that are adjacent is air. 9. A directional display device according to claim 1 , wherein the sides of the first and second waveguides that are adjacent are separated by a reflective layer. 10. A directional display device according to claim 1 , wherein the first waveguide is arranged to image the light sources disposed at different input positions along the input side of the first waveguide, in the lateral direction, so that the output light from the first waveguide is directed into respective optical windows in output directions that are distributed in dependence on the input positions of the light sources. 11. A directional display device according to claim 1 , further comprising a rear reflector disposed behind the second guide surface of each of the plural waveguides, the rear reflector comprising an array of reflective facets arranged to reflect reflected input light that is transmitted through the light extraction features of the first and second waveguides, back through the first and second waveguides to exit through the first guide surface, wherein the rear reflector has parts behind each of the plural waveguides and the reflective facets are curved in the lateral direction with different optical power in the parts of the rear reflector behind the first and second waveguides. 12. A directional display device according to claim 11 , wherein the spatial light modulator is arranged to modulate a first polarization component, the directional display device further comprises a reflective polarizer disposed between the first guide surfaces of the plural waveguide and the spatial light modulator and arranged to transmit the first polarization component and to reflect a second polarization component of the output light that is orthogonal to the first polarization component as rejected light, and the rear reflector further comprises intermediate facets extending between the reflective facets of the rear reflector and inclined in opposite senses from the reflective facets of the rear reflector in a common plane, so that pairs of a reflective facet and an intermediate facet together form corner facets arranged to reflect the rejected light for supply back to the spatial light modulator, the pairs of a reflective facet and an intermediate facet being inclined in a plane that is oriented around the normal to the spatial light modulator so that the rear reflector converts the second polarization component of the rejected light into the first polarization component on reflection. 13. A directional display apparatus comprising: a directional display device according to claim 1 ; and a control system arranged to control the light sources. 14. A directional display device comprising: plural waveguides, wherein each waveguide comprises: an input end arranged to receive input light; a reflective end; first and second, opposed guide surfaces extending between the input end and the reflective end for guiding light along the waveguide from the input end to the reflective end for reflection of the input light back along the waveguide as reflected input light; and sides extending between the opposed guide surfaces and between the input end and the reflective end, wherein the first guide surface is arranged to guide light by total internal reflection, and the second guide surface comprises light extraction features and intermediate regions between the light extraction features, the light extraction features being arranged to deflect the reflected input light in directions allowing exit through the first guide surface as output light, the intermediate regions being arranged to direct light along the waveguide without extraction; and