See-through computer display systems

I claim: 1. A compact optics module for a head mounted display including a DLP image source comprising: a. a light source that provides illumination light directly onto the DLP image source; b. the DLP image source providing reflected image light comprising on-state light and off-state light; c. at least one light trap at a side of the optics module to absorb the off-state light; d. a field lens provided at a distance from the DLP image source that is sufficient for direct illumination; e. a power lens to provide a viewable field of view comprising the image light; f. a fold mirror to reflect the on-state light provided by the DLP image source toward the power lens; and g. a combiner to reflect the on-state light toward a user's eye to provide a displayed image and simultaneously provide a see-through view of a surrounding environment. 2. The compact optics module of claim 1 , wherein the combiner is a partial mirror. 3. The compact optics module of claim 1 , wherein the combiner is a notch mirror. 4. The compact optics module of claim 1 , wherein the illumination light and the image light are unpolarized. 5. The compact optics module of claim 1 , further comprising a camera positioned behind the fold mirror such that the camera shares an optical axis with the optics module so that images of the user's eye can be captured from the perspective of directly in front of the eye. 6. The compact optics module of claim 5 , wherein the fold mirror is a reflective polarizer. 7. The compact optics module of claim 6 , wherein the image light and the light captured by the camera are both polarized but with opposite polarization states. 8. The compact optics module of claim 5 , wherein the fold mirror is a partial reflector. 9. The compact optics module of claim 8 , wherein the image light and the light captured by the camera are both polarized but with opposite polarization states. 10. The compact optics module of claim 1 , wherein the see-through view of the environment includes unpolarized light and the combiner transmits over 50% of the unpolarized light. 11. The compact optics module of claim 10 , wherein the combiner is a partial mirror. 12. The compact optics module of claim 10 , wherein the combiner is a notch mirror. 13. The compact optics module of claim 1 , further comprising a rear optical element comprising at least one of a protective plate and a prescriptive optic.