Displays with a backlight incorporating reflecting layer

What is claimed is: 1. A display comprising: a light source, a spatial light modulator; and a light control layer in an optical path between the light source and the spatial light modulator, the light control layer comprising: an enhanced specular reflector layer, and a first optical layer in optical contact with a first side of the enhanced specular reflector layer, the first optical layer at least one of substantially transparent and substantially translucent, wherein an optical transmission coefficient for the light control layer is greater than an optical transmission coefficient for the enhanced specular reflector layer on its own; and wherein the first optical layer is configured such that light control layer increases the ratio of the amount of light energy in a central portion of the point spread function to an amount of light energy in tails of the point spread function by a factor A as follows: A = ( E CF / E TF ) ( E CW / E TW ) where: E CF is the optical energy within one full-width at half maximum of the point spread function in the presence of the light control layer; E TF is the optical energy outside of twice the full width at half-maximum of the point spread function in the presence of the light control layer; E CW is the optical energy within one full-width at half maximum of the point spread function in the absence of the light control layer; and E TW is the optical energy outside of twice the full width at half-maximum of the point spread function in the absence of the light control layer. 2. A display according to claim 1 , wherein a first surface of the first optical layer comprises a spatially varying surface feature, the surface feature comprising dimples or frosting or prism-shaped indentations or deposits of light scattering material or surface-relief holographic diffuser elements. 3. A display according to claim 1 , wherein the light source comprises a plurality of light emitters. 4. A display according to claim 3 , wherein the light emitters are disposed in a spatially periodic arrangement, and light control layer comprises an arrangement of features having the same spatial periodicity as the periodicity of the arrangement of light emitters. 5. A display according to claim 3 , wherein the light control layer comprises a physical feature that is symmetric about the optical axis of at least one of the plurality of light emitters, the physical feature comprising a density gradient of scattering centers in the first optical layer. 6. A display according to claim 3 , wherein the light source comprises a waveguide that is edge-lit by the plurality of light emitters. 7. A display according to claim 3 , wherein the light control layer is configured to concentrate light emitted by individual light emitters within corresponding areas of the light modulator, the corresponding areas having a diameter substantially equal to six times a distance between the light source and the light modulator. 8. A display according to claim 7 , wherein the first optical layer comprises a rear layer located between the enhanced specular reflector layer and a back reflector, an optical cavity is defined between the back reflector and the enhanced specular reflector layer and the rear layer occupies at least ¾ of a thickness of the optical cavity.