Interactive polarization-preserving projection display

What is claimed is: 1. An interactive display, comprising: a polarization-preserving screen disposed to reflect infrared (IR) light; a visible-light image displayed on the polarization-preserving screen; a polarized IR light source capable of illuminating the polarization-preserving screen with a polarized IR light beam having a first polarization direction; a polarization analyzer disposed to intercept a reflected portion of the polarized IR light beam; and an IR sensor disposed to detect the reflected portion of the polarized IR light beam that passes through the polarization analyzer, wherein the polarization-preserving screen is a front projection screen and is polarization-preserving for IR light. 2. The interactive display of claim 1 , further comprising a marker disposed to reflect a portion of the polarized IR light beam as a position indicator beam. 3. The interactive display of claim 2 , wherein the IR sensor and the visible-light image are aligned and/or calibrated such that there is a correspondence between the position indicator beam and a region of the visible-light image. 4. The interactive display of claim 1 , wherein the polarization analyzer is aligned to transmit a second polarization direction orthogonal to the first polarization direction. 5. The interactive display of claim 1 , wherein the IR sensor detects the reflected portion of the polarized light beam having a second polarization direction orthogonal to the first polarization direction. 6. The interactive display of claim 1 , further comprising a marker disposed to reflect a portion of the polarized IR light beam as a position indicator beam, wherein the marker comprises a retroreflector. 7. The interactive display of claim 6 , wherein the retroreflector comprises a polarization preserving retroreflector. 8. The interactive display of claim 6 , wherein the retroreflector comprises a polarization rotating retroreflector. 9. The interactive display of claim 1 , further comprising a marker disposed to reflect a portion of the polarized IR light beam as a position indicator beam, wherein the position indicator beam comprises mixed polarization states. 10. The interactive display of claim 1 , further comprising a marker disposed to reflect a portion of the polarized IR light beam as a position indicator beam, wherein the marker comprises a diffuse reflector. 11. The interactive display of claim 1 , wherein the IR sensor is sensitive to IR light having the first polarization direction only, the second polarization direction only, or a mixture of the first polarization direction and the second polarization direction. 12. The interactive display of claim 1 , wherein the polarized IR light source illuminates at least one of the visible-light image and a border region exterior to the visible-light image. 13. The interactive display of claim 12 , further comprising an activation signal capable of updating the visible-light image based on a state of the activation signal. 14. The interactive display of claim 13 , wherein the activation signal comprises an acoustic signal, an electronic signal, a visual signal, an active IR signal, a passive IR signal, or a combination thereof. 15. An interactive display, comprising: a polarization-preserving screen disposed to reflect infrared (IR) light; a visible-light image displayed on the polarization-preserving screen; a polarized infrared (IR) light source capable of illuminating the polarization-preserving screen with a polarized IR light beam having a first polarization direction; at least one polarization analyzer disposed to intercept a reflected portion of the polarized IR light beam; and an IR sensor disposed to detect the reflected portion of the polarized IR light beam that passes through each of the at least one polarization analyzer, wherein the polarization-preserving screen is a front projection screen and is polarization-Preserving for IR light. 16. The interactive display of claim 15 , further comprising a plurality of markers disposed to reflect a portion of the polarized IR light beam as a plurality of position indicator beams. 17. The interactive display of claim 16 , wherein the plurality of markers comprise diffuse reflectors, specular reflectors, retroreflectors, polarization preserving retroreflectors, polarization rotating retroreflectors, or a combination thereof. 18. An interactive projection system, comprising: a polarization-preserving reflective screen; a visible-light projector configured to display an image on the polarization-preserving reflective screen; a polarized infrared (IR) light source capable of illuminating the polarization-preserving reflective screen with a polarized IR light beam; a polarization analyzer disposed to intercept a reflected portion of the polarized IR light beam; and at least one IR sensor disposed to detect the reflected portion of the polarized IR light beam that passes through the polarization analyzer, wherein the polarization-preserving reflective screen is a front projection screen and is polarization-preserving for IR light. 19. The interactive projection system of claim 18 , further comprising a plurality of markers disposed to reflect a portion of the polarized IR light beam as a plurality of position indicator beams. 20. An interactive imaging system, comprising: a polarization-preserving reflective screen; a polarized infrared (IR) light source capable of illuminating a region of the polarization-preserving reflective screen with a polarized IR light beam; and at least one IR sensor disposed to intercept a plurality of reflected portions of the polarized IR light beam, wherein the polarized IR light beam comprises IR light having a first polarization direction, and the at least one IR sensor detects IR light having a second polarization direction orthogonal to the first polarization direction wherein the polarization-preserving reflective screen is a front projection screen and is polarization-preserving for IR light. 21. The interactive imaging system of claim 20 , further comprising a plurality of markers disposed to reflect a portion of the polarized IR light beam as a plurality of position indicator beams. 22. The interactive imaging system of claim 21 , wherein each IR sensor and a visible-light image are aligned and/or calibrated such that there is a correspondence between each of the plurality of position indicator beams and a position on the visible-light image.