Control of polarization and diffractive artifact resolution in retro-imaging systems

What is claimed is: 1. A retro-reflective display comprising: a retro-reflective layer at a substantially perpendicular position to a light source; and a polarizing beam splitter (PBS) layer positioned such that a polarized source light from the light source is reflected from the PBS layer to the retro-reflective layer and a reflected light from the retro-reflective layer with orthogonal polarization to the source light is transmitted through the PBS layer to form a reconvergent image, and wherein a surface of the retro-reflective layer is laminated or filled with an ultra-violet cure clear resin. 2. The retro-reflective display of claim 1 , wherein the PBS layer is positioned at or near 45° with respect to the light source and the retro-reflective layer. 3. The retro-reflective display of claim 1 , further comprising a retarder layer formed on an inward facing, surface of the reflective layer facing the PBS layer. 4. The retro-reflective display of claim 3 , wherein the retarder layer is a quarter-wave retarder layer that is angularly oriented within a plane of the retarder layer such that a fast axis is about 45° with respect to a polarization of linearly polarized input light. 5. The retro-reflective display of claim 1 , further comprising a polarizer filter formed on an outward facing surface of the PBS layer. 6. The retro-reflective display of claim 5 , further comprising another retarder layer formed on an inward facing surface of the PBS layer opposite the polarizer filter such that a circularly polarized source light is received as a circularly polarized reflected light from the reflective surface and transmitted as linearly polarized light through the PBS layer. 7. The retro-reflective display of claim 1 , wherein the retro-reflective surface is a retro-reflective array. 8. The retro-reflective display of claim 7 , wherein the retro-reflective array is one of coated or uncoated and metalized or non-metalized. 9. The retro-reflective display of claim 1 , wherein the PBS layer is configured to split orthogonal polarization states of circularly polarized input light by reflecting a first circular polarization state and transmitting a second circular polarization state orthogonal to the first circular polarization state such that only, one retarder layer is implemented in the retro-reflective display. 10. The retro-reflective display of claim 1 , wherein the retro-reflective layer is formed using one or more of: surface metallization, sequence of polymer layers, or optical coatings. 11. The retro-reflective display of claim 7 , wherein the retro-reflective array includes a plurality of corner, cube arrays (CCAs). 12. The retro-reflective display of claim 11 , wherein a reflective coating is directly applied to facets of a plurality of corner cube structures of the CCAs. 13. The retro-reflective display of claim 12 , wherein the facets of the plurality of corner cube structures are rendered reflective through total internal reflection (TIR).