Backlight with collimating reflective polarizer

What is claimed is: 1. A backlight for providing illumination to a liquid crystal panel, the backlight comprising a front reflector disposed on a back reflector and defining a cavity therebetween and substantially uniformly filled with a material, each of the front and back reflectors comprising a plurality of polymeric layers numbering at least 50 in total, each of the polymeric layers having an average thickness of less than about 500 nm, such that for an incident light propagating in an incident plane and a visible wavelength range extending from about 420 nm to about 650 nm and an infrared wavelength range extending from about 900 to about 1500 nm: the front reflector has: in the visible wavelength range: a first incident angle of less than about 5 degrees, an average transmittance of less than about 20% for the incident light polarized along a first direction, and an average transmittance of between about 20% and about 85% for the incident light polarized along an orthogonal second direction, and for a second incident angle of greater than about 40 degrees, an average transmittance of less than about 40% for each of the first and second directions lying in the incident plane and for each of a p-polarized and an s-polarized incident lights; and for at least a first wavelength in the infrared wavelength range: a transmittance of greater than about 40% for each of the first and second incident angles, for each of the p-polarized and an s-polarized incident lights, and for each of the first and second directions lying in the incident plane; and the back reflector has: for each of the first and second incident angles, for the incident light polarized along each of the first and second directions, and for each of the first and second directions lying in the incident plane, a transmittance of greater than about 30% for the at least the first wavelength in the infrared wavelength range, and an average transmittance of less than about 20% in the visible wavelength range; wherein the material has an index of refraction of less than about 1.2 for at least one wavelength in the visible wavelength range. 2. The backlight of claim 1 , wherein at least one of the front and back reflectors comprises an optical diffuser disposed thereon and facing the cavity. 3. The backlight of claim 2 , wherein the optical diffuser comprises a substrate and is bonded to the at least one of the front and back reflectors via an adhesive layer. 4. The backlight of claim 2 , wherein the optical diffuser is disposed directly on the at least one of the front and back reflectors. 5. The backlight of claim 1 , wherein at least one of the front and back reflectors comprises an optical diffuser disposed thereon and facing away from the cavity. 6. The backlight of any of claims 2-5 , wherein the optical diffuser comprises a plurality of protrusions on a major surface thereof. 7. The backlight of any of claim 6 , wherein the protrusions in the plurality of protrusions form a regular array, an irregular array, or a substantially random array of protrusions. 8. The backlight of claim 1 , wherein the liquid crystal panel comprises a liquid crystal layer disposed between first and second absorbing polarizers. 9. The backlight of claim 1 further comprising at least one light source for emitting light into the cavity. 10. The backlight of claim 9 , wherein the at least one light source is disposed outside, and along a lateral side, of the cavity, the at least one light source emitting light that enters the cavity through the lateral side. 11. The backlight of claim 9 , wherein the at least one light source is disposed inside of the cavity, the at least one light source emitting light inside the cavity. 12. The backlight of claim 1 , wherein at least one of the front and back reflectors further comprises at least one skin layer having an average thickness of greater than about 500 nm. 13. The backlight of claim 1 , wherein the material is air. 14. A display system for sensing a finger of a user applied to the display system, the display system comprising: a display panel configured to generate an image for viewing by the user; and an extended light source for providing illumination to the display panel, the extended light source comprising spaced apart substantially co-extensive front and back reflectors for recycling light therebetween to increase a brightness of the illumination, a spacing between the front and back reflectors substantially uniformly filled with a material having an effective index of refraction of less than about 1.2, such that for a visible wavelength range extending from about 420 nm to about 650 nm and an infrared wavelength range extending from about 900 to about 1500 nm: for a substantially normally incident light and polarization states along mutually orthogonal first and second directions, the front reflector has respective average visible transmittances Tx and Ty in the visible wavelength range and respective transmittances Tix and Tiy at at least a first wavelength in the infrared wavelength range, Tix and Tiy>Ty>Tx; for an incident light having the second polarization state and incident at an incident angle of greater than about 40 degrees, the front reflector has an average visible transmittances Ty1 in the visible wavelength range, and a transmittance Tiy1 at the at least first wavelength in the infrared wavelength range, Tiy1>Ty1, and Ty>Ty1>Tx; and for each of p- and s-polarized incident lights and for incident angles at least up to about 50 degrees, the back reflector has a transmittance of greater than about 30% at the at least first wavelength in the infrared wavelength range. 15. The display system of claim 14 , wherein for each of p- and s-polarized light incident at an incident angle of greater than about 40 degrees, an average visible transmittance of the front reflector in the visible wavelength range is smaller than a transmittance of the front reflector for the at least first wavelength in the infrared wavelength range. 16. The display system of claim 14 , wherein the material is air. 17. The display system of claim 14 , wherein at least one of the front and back reflectors comprises an optical diffuser disposed thereon and facing the spacing. 18. The display system of claim 14 , wherein the extended light source further comprises at least one light source for emitting light into the spacing. 19. The display system of claim 18 , wherein the at least one light source is disposed outside, and along a lateral side, of the spacing, the at least one light source emitting light that enters the spacing through the lateral side. 20. The display system of claim 18 , wherein the at least one light source is disposed inside of the spacing, the at least one light source emitting light inside the spacing.