Wire grid polarizer with dual absorptive regions

What is claimed is: 1. An image projection system comprising: a) an incoming wire grid polarizer disposed between a light source and a liquid crystal display (LCD); b) the incoming wire grid polarizer including an array of parallel, elongated rods disposed over a surface of a transparent substrate with gaps between adjacent rods, each of the rods including a reflective wire sandwiched between two absorptive ribs; c) the incoming wire grid polarizer disposed in a location to receive light from the light source and capable of substantially transmitting one polarization and substantially absorbing an opposite polarization of the light from the light source; and d) the incoming wire grid polarizer disposed in a location to receive reflected light from the LCD and capable of substantially absorbing the reflected light from the LCD; e) the polarizer, in a light wavelength range of 450 nanometers through 700 nanometers, is capable of absorbing at least 80% of one polarization of light from both sides of the polarizer and transmitting at least 80% of an opposite polarization of light. 2. The image projection system of claim 1 , further comprising: a. an analyzer wire grid polarizer: i. comprising a transparent substrate of the analyzer wire grid polarizer, which is different from the transparent substrate of the incoming wire grid polarizer, an array of parallel, elongated rods of the analyzer wire grid polarizer, which are different from the array of parallel, elongated rods of the incoming wire grid polarizer, disposed over a surface of the transparent substrate of the analyzer wire grid polarizer, with gaps between adjacent rods of the analyzer wire grid polarizer, each of the rods of the analyzer wire grid polarizer including a reflective wire sandwiched between two absorptive ribs; and ii. disposed on an opposite side of the LCD from the incoming wire grid polarizer; and b. an X-Cube disposed on an opposite side of the analyzer wire grid polarizer from the LCD. 3. The image projection system of claim 2 , wherein: a. the ribs are capable of absorbing greater than 40% and reflecting less than 60% of one polarization of light in the wavelength range of 450 nanometers through 700 nanometers; b. the wires are capable of reflecting greater than 80% and absorbing less than 20% of one polarization of light in the wavelength range of 450 nanometers through 700 nanometers. 4. The image projection system of claim 1 , wherein the ribs comprise a mass percent of at least 80% silicon, at least 80% titanium, or at least 80% tantalum. 5. The image projection system of claim 1 , wherein at least one of the ribs adjoins the wire in each rod. 6. The wire grid polarizer of claim 1 , wherein the reflective wires comprise aluminum, chromium, silver, gold, or combinations thereof. 7. A selectively-absorptive wire grid polarizer comprising an array of parallel, elongated rods disposed over a surface of a transparent substrate with gaps between adjacent rods, each of the rods including a reflective wire sandwiched between two absorptive ribs, wherein the polarizer, in a light wavelength range of 450 nanometers through 700 nanometers, is capable of: a. absorbing at least 80% of one polarization of light from both sides of the polarizer; and b. transmitting at least 80% of an opposite polarization of light. 8. The wire grid polarizer of claim 7 , wherein the rods are formed by etching to form the ribs and the wires. 9. The wire grid polarizer of claim 7 , wherein the ribs comprise silicon, titanium, tantalum, or combinations thereof. 10. The wire grid polarizer of claim 7 , wherein the ribs comprise a mass percent of at least 80% silicon, at least 80% titanium, or at least 80% tantalum. 11. The wire grid polarizer of claim 7 , wherein the wires are metallic. 12. The wire grid polarizer of claim 7 , wherein at least one of the ribs adjoins the wire in each rod. 13. The wire grid polarizer of claim 7 , wherein both ribs adjoin the wire on opposite sides thereof in each rod. 14. The wire grid polarizer of claim 7 , wherein the reflective wires comprise aluminum, chromium, silver, gold, or combinations thereof. 15. A selectively-absorptive wire grid polarizer comprising an array of parallel, elongated rods disposed over a surface of a transparent substrate with gaps between adjacent rods, each of the rods including a reflective wire sandwiched between two absorptive ribs, wherein: a. the ribs are capable of absorbing greater than 40% and reflecting less than 60% of one polarization of light in a wavelength range of 450 nanometers through 700 nanometers; b. the wires are capable of reflecting greater than 80% and absorbing less than 20% of one polarization of light in the wavelength range of 450 nanometers through 700 nanometers. 16. The wire grid polarizer of claim 15 , wherein the reflective wires comprise aluminum, chromium, silver, gold, or combinations thereof. 17. The wire grid polarizer of claim 15 , wherein the reflective wires comprise at least 80% aluminum. 18. The wire grid polarizer of claim 15 , wherein the ribs comprise silicon, titanium, tantalum, or combinations thereof. 19. The wire grid polarizer of claim 15 , wherein at least one of the ribs adjoins the wire in each rod. 20. The wire grid polarizer of claim 15 , wherein both ribs adjoin the wire on opposite sides thereof in each rod.