Micro collimator system and method for a head up display (HUD)

What is claimed is: 1. A head up display, comprising: an image source; an illuminator; a field lens arranged to receive light directly from the image source; a polarizing beam splitter having a first face, a second face, a third face, and a fourth face, wherein the illuminator is arranged to illuminate the image source through the polarizing beam splitter through the fourth face and the first face, wherein the light from the illuminator entering the fourth face has a second polarization state, the field lens being disposed to provide the light from the image source to the first face, the polarizing beam splitter being configured to reflect light of a first polarization state through the second face, wherein the light from the image source has the first polarization state, wherein the first polarization state and the second polarization state are not the same; a retarder disposed to receive the light provided through the second face; and a curved reflector disposed to receive light from the retarder and to provide the light from the retarder back through the retarder to the second face, wherein light entering the second face has a second polarization state and wherein the polarizing beam splitter is configured so that the light entering the second face travels from the second face to the third face, wherein the light at the third face is provided for display on the head up display. 2. The head up display of claim 1 , further comprising: a corrector lens disposed to receive light exiting the third face, wherein light leaving the corrector lens is collimated light and wherein the field lens has a diffractive surface for providing color correction and having a higher order of aberration control. 3. The head up display of claim 2 , further comprising a waveguide combiner configured to provide vertical pupil expansion, horizontal pupil expansion, or both. 4. The head up display of claim 3 , wherein the corrector lens, the field lens, the curved reflector, and the polarizing beam splitter are provided in a package with a volume of less than 1 cubic centimeter. 5. The head up display of claim 3 , further comprising a polarizer disposed between the corrector lens and the third face. 6. The head up display of claim 1 , wherein the polarizing beam splitter is cubic and the curved reflector and the retarder are attached to the polarizing beam splitter. 7. The head up display of claim 1 , further comprising an LED. 8. The head up display of claim 7 , further comprising a LCOS micro display. 9. The head up display of claim 1 further comprising: a combiner; and the field lens, the polarizing beam splitter and the curved reflector are part of a catadioptric optical system. 10. A method of providing information to a pilot, the method comprising: providing light from a light source through a polarizing beam splitter to an image source through a field lens to the polarizing beam splitter, the field lens being attached to a face of the polarizing beam splitter; providing light from the image source to the polarizing beam splitter and reflecting the light from the image source within the polarizing beam splitter to a curved reflective surface; providing light from the curved reflective surface through the polarizing beam splitter to a corrector lens; and providing light from the corrector lens as collimated light to a wave guide combiner. 11. The method of claim 10 , wherein the field lens includes a diffractive surface. 12. The method of claim 10 , further comprising: diffracting light into the wave guide. 13. The method of claim 12 , further comprising: diffracting light out of the wave guide. 14. The method of claim 11 , wherein the polarizing beam splitter includes two retarder films. 15. A head up display system, comprising: an image source; an illuminator; a field lens arranged to receive light directly from the image source; a polarizing beam splitter having a first face, a second face, a third face, and a fourth face, wherein the illuminator is arranged to illuminate the image source through the polarizing beam splitter through the fourth face and the first face, wherein the light from the illuminator entering the fourth face has a second polarization state, the field lens being disposed to provide the light from the image source to the first face, the polarizing beam splitter being configured to reflect light of a first polarization state through the second face, wherein the light from the image source has the first polarization state, wherein the first polarization state and the second polarization state are not the same; a retarder disposed to receive the light provided through the second face; a curved reflector disposed to receive light from the retarder and to provide the light from the retarder back through the retarder to the second face, wherein light entering the second face has a second polarization state and wherein the polarizing beam splitter is configured so that the light entering the second face travels from the second face to the third face, wherein the light at the third face is provided for display on the head up display; at least one light pipe; and a waveguide combiner, the at least one light pipe comprises at least one turning grating or mirror array for providing light into the waveguide combiner from the light pipe. 16. The head up display system of claim 15 , wherein: the polarizing beam splitter; the illuminator; and; an image source, wherein the image source, the illuminator and the polarizing beam splitter are part of a catadioptric collimator. 17. The head up display system of claim 16 , further comprising a corrector lens or a protective cover. 18. The head up display system of claim 16 , wherein the catadioptric collimator is arranged as an on axis arrangement. 19. The head up display system of claim 16 , wherein an exit pupil for the catadioptric collimator is at least three inches wide. 20. The head up display system of claim 15 , wherein the turning grating is a reciprocal grating to an input grating provided on the light pipe or on an input block attached to the light pipe.