Cube, Polarizing Beam-Splitter with Reduced Incident-Angle

What is claimed is: 1 . A cube, polarizing beam-splitter (PBS) comprising: a) a first prism including two ends linked by an inner face, a first side, and a second side; b) a second prism including two ends linked by an inner face, a first side, and a second side; c) a polarizer sandwiched between the inner face of the first prism and the inner face of the second prism; and d) a first angle, between a plane of the first side of the first prism and a plane of the inner face of the first prism, having a value of between 10 degrees and 42.5 degrees; e) a second angle, between a plane of the second side of the first prism and a plane of the inner face of the first prism, having a value of between 10 degrees and 42.5 degrees; and f) |Eff −16 −Eff +16 |<0.25 across a wavelength range of 400 through 700 nanometers, where: i) Eff −16 is an efficiency of the cube PBS with an angle of incidence on the polarizer equal to the first angle minus 16 degrees; ii) Eff + 16 is an efficiency of the cube PBS with an angle of incidence on the polarizer equal to the first angle plus 16 degrees; and iii) efficiency means a fraction transmission of a predominantly-transmitted polarization times a fraction reflectance of an opposite polarization. 2 . The cube PBS of claim 1 , wherein a difference between the first angle and the second angle is less than three degrees. 3 . The cube PBS of claim 1 , further comprising a third angle, between a plane of the first side of the first prism and a plane of the second side of the first prism, and wherein: |180-2*first angle−third angle|<5 degrees. 4 . A cube, polarizing beam-splitter (PBS) comprising: a) a first prism including two ends linked by an inner face, a first side, and a second side; b) a second prism including two ends linked by an inner face, a first side, and a second side; c) a polarizer sandwiched between the inner face of the first prism and the inner face of the second prism; and d) a first angle, between a plane of the first side of the first prism and a plane of the inner face of the first prism, having a value of between 10 degrees and 42.5 degrees. 5 . The cube PBS of claim 4 , wherein a profile of the first prism is different than a profile of the second prism and the first prism has a volume that is at least 1.2 times larger than a volume of the second prism. 6 . A cube, polarizing beam-splitter (PBS) comprising: a) a first prism including two ends linked by an inner face, a first side, and a second side; b) a second prism including two ends linked by an inner face, a first side, and a second side; c) a polarizer sandwiched between the inner face of the first prism and the inner face of the second prism; and d) a first angle, between a plane of the first side of the first prism and a plane of the inner face of the first prism, having a value of between 20 degrees and 40 degrees. 7 . The cube PBS of claim 6 , wherein the first angle is between 25 degrees and 35 degrees. 8 . The cube PBS of claim 6 , further comprising a second angle, between a plane of the second side of the first prism and a plane of the inner face of the first prism, having a value of between 20 degrees and 40 degrees. 9 . The cube PBS of claim 8 , wherein a difference between the first angle and the second angle is less than three degrees. 10 . The cube PBS of claim 6 , further comprising a third angle, between a plane of the first side of the first prism and a plane of the second side of the first prism, and wherein: |180-2*first angle−third angle|<5 degrees. 11 . The cube PBS of claim 6 , wherein |perpendicular-line−bisecting-line|<5 degrees, where: a) the perpendicular-line is a line perpendicular to a face of the polarizer; b) the bisecting-line is a line that bisects an angle between a plane of the first side of the first prism and a plane of the second side of the first prism. 12 . The cube PBS of claim 6 , wherein a profile of the first prism is the same as a profile of the second prism. 13 . The cube PBS of claim 6 , wherein a profile of the first prism is different than a profile of the second prism. 14 . The cube PBS of claim 6 , wherein the first prism has a volume that is at least 1.2 times larger than a volume of the second prism. 15 . The cube PBS of claim 6 , wherein a 435 nanometer wavelength incident light beam, with a 90° angle of incidence on the first side of the first prism, an angle of incidence on the polarizer equal to the first angle, and an angular-width equal to the angle of incidence +/−16°, has a efficiency of at least 55% across the angular-width of the light beam, where efficiency means a fraction transmission of a predominantly-transmitted polarization times a fraction reflectance of an opposite polarization. 16 . The cube PBS of claim 6 , wherein light across wavelength range of 400 through 700 nanometers, with a 45° angle of incidence on the first side, satisfies the equation |Eff −16 −Eff +16 |<0.25 where: a) Eff −16 is an efficiency of the cube PBS with an angle of incidence on the polarizer equal to the first angle minus 16 degrees; b) Eff +16 is an efficiency of the cube PBS with an angle of incidence on the polarizer equal to the first angle plus 16 degrees; and c) efficiency means a fraction transmission of a predominantly-transmitted polarization times a fraction reflectance of an opposite polarization. 17 . The cube PBS of claim 6 , in combination with an image projector, the image projector comprising: a) a light source located to emit a beam of light into the first side of the first prism, an optical axis of the beam of light is within +/−5 degrees of perpendicular to the first side of the first prism, the cube PBS separating the beam of light into a pair of polarized beams, including a desired beam and an additional beam, the desired beam having a higher light intensity than the additional beam, and emitting the desired beam out of the cube PBS; b) a spatial light modulator: i) located to receive the desired beam from the cube PBS; and ii) having a plurality of pixels, each pixel capable of receiving a signal and transmitting or reflecting a portion of the desired beam without causing a change in polarization, or rotating a polarization of a portion of the desired beam, based on the signal, creating an image beam of selectively polarized light. 18 . The combination of claim 17 , wherein the desired beam is emitted out of the cube PBS through the second side of the first prism with an optical axis of the desired beam that is within +/−5 degrees of perpendicular to the second side of the first prism. 19 . The combination of claim 17 , further comprising a projection lens system, wherein: a) the spatial light modulator and the projection lens system are oriented for the spatial light modulator to emit the image beam through the cube PBS into the projection lens system; b) the second side of the second prism is opposite of the second side of the first prism and the image beam is emitted out of the cube PBS through the second side of the second prism with an optical axis of the image beam that is within +/−5 degrees of perpendicular to the second side of the second prism; and c) the projection lens system is capable of projecting an image. 20 . The cube PBS of claim 6 , wherein the cube PBS has at least seven sides.