Microreplicated optical film

What is claimed is: 1. A backlight for providing illumination along a first direction to a display disposed thereon, the backlight comprising: a plurality of spaced apart discrete light sources arranged in rows and columns of the light sources and configured to face the display; and an optical film disposed on and above the light sources and below and proximate a first plane, the optical film and the first plane configured to be disposed between the display and the light sources, the optical film comprising a plurality of through-holes arranged in rows and columns of the through-holes and extending between first and second major surfaces of the optical film, each through hole having a first opening at the first major surface and having a first open area, A1, and a second opening at the second major surface and having a second open area, A2, each through-hole having a length, H, along the first direction such that the ratio of H/A2 is greater than or equal to about 0.13, such that: when all the light sources emit light, the light emitted by all the light sources has a first overall peak intensity in the first plane, and a first brightness uniformity across the first plane, and in the absence of the optical film, the light emitted by all the light sources has a second overall peak intensity in the first plane, and a second brightness uniformity across the first plane, wherein: the first and second overall peak intensities are different by less than about 20%; and the first brightness uniformity exhibits an improvement over the second brightness uniformity by at least 2.8%. 2. The backlight of claim 1 , wherein A1 is greater than A2. 3. The backlight of claim 2 , wherein when the optical film is disposed such that A1 faces the light sources, a first average luminance in the first plane is smaller and the first brightness uniformity is greater, and when the optical film is disposed such that A2 faces the light sources, the first average luminance in the first plane is greater and the first brightness uniformity is greater. 4. The backlight of claim 1 , wherein A1 is substantially equal to A2. 5. The backlight of claim 1 , wherein the slope of an inner wall of each of the through-holes of the plurality of through-holes is within ±15 degrees of the first direction. 6. The backlight of claim 1 , further comprising a diffusing film disposed between the light sources and the optical film. 7. The backlight of claim 1 , wherein the light emitted by all the light sources has a first average luminance in the first plane, and, in the absence of the optical film, the light emitted by all the light sources has a second average luminance in the first plane, such that the first average luminance is greater than or equal to the second average luminance. 8. The backlight of claim 1 , wherein a shape of at least a portion of the plurality of through-holes is substantially a truncated square pyramid. 9. The backlight of claim 1 , wherein a shape of at least a portion of the plurality of through-holes is substantially a truncated cone. 10. The backlight of claim 1 , wherein a shape of at least a portion of the plurality of through-holes is substantially a cylinder. 11. The optical film of claim 1 , wherein a shape of at least a portion of the plurality of through-holes is substantially a rectangular prism. 12. An optical film, comprising: a structured first major surface opposite a second major surface, the first major surface comprising a plurality of posts arranged in rows and columns of the posts, and a plurality of ridges extending between, and recessed relative to, the posts; and a plurality of through-holes extending between the first and second major surfaces, each through-hole comprising: a first opening at the first major surface defined by, and recessed relative to, a number of ridges in the plurality of ridges, the first opening having a first maximum dimension; and a second opening at the second major surface and having a second maximum dimension different than the first maximum dimension. 13. The optical film of claim 12 , wherein the first opening of each through-hole is defined and surrounded by four ridges in the plurality of ridges. 14. The optical film of claim 12 , wherein each through-hole of the plurality of through-holes defines a distance, H, between the first opening and the second opening, the second opening has an open area A2, and the ratio of H/A2 is greater than or equal to about 0.13. 15. A backlight for providing illumination to a display, comprising: a plurality of spaced apart discrete light sources arranged in rows and columns of the light sources and configured to face the display; and the optical film of claim 12 disposed on the plurality of spaced apart discrete light sources and below and proximate a first plane. 16. The backlight of claim 15 , wherein when all the light sources emit light, the light emitted by all the light sources has a first overall peak intensity in the first plane, and a first brightness uniformity across the first plane, and in the absence of the optical film, the light emitted by all the light sources has a second overall peak intensity in the first plane, and a second brightness uniformity across the first plane, wherein: the first and second overall peak intensities are different by less than about 20%; and the first brightness uniformity exhibits an improvement over the second brightness uniformity by at least 2.8%. 17. The backlight of claim 15 , wherein the light emitted by all the light sources has a first average luminance in the first plane, and, in the absence of the optical film, the light emitted by all the light sources has a second average luminance in the first plane, such that the first average luminance is greater than or equal to the second average luminance. 18. The optical film of claim 12 , wherein a shape of at least a portion of the plurality of through-holes is substantially a shape selected from a truncated square pyramid, a truncated cone, a cylinder, and a rectangular prism. 19. An optical film, comprising: a structured first major surface opposite a second major surface, the first major surface comprising a plurality of posts arranged in rows and columns of the posts, and a plurality of ridges extending between, and recessed relative to, the posts; and a plurality of recesses extending from the first major surface into the optical film in a thickness direction of the optical film, each recess comprising: a first open end at the first major surface defined by, and recessed relative to, a number of ridges in the plurality of ridges, the first open end having a first maximum dimension; and a second closed end recessed from the first open end by a distance D and having a second maximum dimension different than the first maximum dimension. 20. A backlight for providing illumination to a display, comprising: a plurality of spaced apart discrete light sources arranged in rows and columns of the light sources and configured to face the display; and the optical film of claim 19 disposed on the plurality of spaced apart discrete light sources and below and proximate a first plane.