Wire Grid Polarizer with Side Region

What is claimed is: 1 . A wire grid polarizer comprising: a. a substrate being substantially transmissive to incoming light; b. an array of parallel, elongated first lower ribs disposed over the substrate, the first lower ribs having a bottom attached to the substrate, a top surface opposite the bottom, and two opposite sides; c. an array of parallel, elongated, first upper ribs disposed over the top surface of the first lower ribs such that each first lower rib is paired with a corresponding first upper rib to define an array of center ribs; d. an array of elongated side bars including a side bar disposed along each side of each of the center ribs; e. a gap between each side bar and corresponding center rib and an adjacent side bar and corresponding center rib; f. at least one of the first lower ribs and first upper ribs is substantially reflective of incoming light; and g. the side bars are substantially absorptive of incoming light. 2 . The polarizer of claim 1 , wherein another of the first lower ribs or the first upper ribs is substantially transmissive of incoming light. 3 . The polarizer of claim 1 , wherein material of the side bars absorbs greater than 40% of visible light. 4 . The polarizer of claim 1 , wherein material of the side bars absorbs greater than 40% of ultraviolet light. 5 . The polarizer of claim 1 , wherein the side bars extend along each side of the center ribs substantially from the bottom of the first lower ribs to a top of the first upper ribs. 6 . The polarizer of claim 1 , further comprising side ribs substantially filling the gaps. 7 . The polarizer of claim 6 , wherein the side ribs comprise a dielectric material and the dielectric material extends from the gaps above and over tops of the center ribs and the side bars. 8 . The polarizer of claim 1 , wherein the polarizer transmits 90% of one polarization of light and absorbs 80% an opposite polarization of light at light wavelengths from 400 nm through 700 nm. 9 . The polarizer of claim 1 , wherein an aspect ratio of the side bars is between 8 and 60. 10 . The polarizer of claim 1 , wherein the side bars have a width of between 5 nm and 20 nm and a thickness of between 150 nm and 300 nm. 11 . A wire grid polarizer comprising: a. a substrate being substantially transmissive to incoming light; b. an array of parallel, elongated first lower ribs disposed over the substrate, the first lower ribs having two opposite sides; c. an array of elongated side bars disposed over the substrate including a side bar disposed along and adjoining each side of the first lower ribs; d. each first lower rib and pair of side bars defining a central group; e. an array of elongated side ribs disposed over the substrate including a side rib disposed between and adjoining adjacent central groups; f. at least one of the first lower ribs, side bars, and side ribs is substantially reflective of incoming light; and g. at least one other of the first lower ribs, side bars, and side ribs is substantially absorptive of incoming light. 12 . The polarizer of claim 11 , wherein an aspect ratio of the side bars is between 8 and 60. 13 . The polarizer of claim 11 , wherein the side bars have a width of between 5 nm and 20 nm and a thickness of between 150 nm and 300 nm. 14 . A first method of making a wire grid polarizer, the method comprising the following steps in order: a. providing a substrate that is substantially transmissive to incoming light and having a continuous thin film of material over a surface of the substrate; h. etching the substrate and the thin film of material to form an array of parallel, elongated center ribs disposed over the substrate, the center ribs comprising first upper ribs disposed over first lower ribs and solid-material-free gaps between the ribs; b. conformal coating the substrate and the center ribs with a layer of material while maintainng the solid-material-free gaps between the ribs; and c. etching the layer of material to remove horizontal segments and leaving vertical side bars along sides of the center ribs wherein at least one of the first lower ribs, the first upper ribs, and the side bars is substantially reflective of incoming light. 15 . The first method of claim 14 , further comprising the following step after the step of etching the layer of material: backfilling the gaps with dielectric material, forming side ribs in the gaps. 16 . The first method of claim 15 , wherein backfilling the gaps with dielectric material further includes backfilling above the center ribs and side bars with the dielectric material, and wherein the dielectric material is substantially transmissive of incoming light. 17 . The first method of claim 14 , wherein at least one of the first lower ribs, the first upper ribs, and the vertical side bars is substantially absorptive of incoming light. 18 . The first method of claim 14 , wherein the vertical side bars are substantially absorptive of incoming light. 19 . The polarizer of claim 14 , wherein an aspect ratio of the side bars is between 8 and 60. 20 . The polarizer of claim 14 , wherein the side bars have a width of between 5 nm and 20 nm and a thickness of between 150 nm and 300 nm.