Optical system

What is claimed is: 1. An optical system comprising: a partial reflector having an average optical reflectance of at least 30% in a desired plurality of wavelengths; a reflective polarizer curved about two orthogonal axes and substantially transmitting light having a first polarization state and substantially reflecting light having an orthogonal second polarization state; and a retarder disposed between the partial reflector and the reflective polarizer, wherein the reflective polarizer comprises at least one layer substantially optically uniaxial at at least one location, the at least one layer at the at least one location having a first refractive index in a thickness direction, a second refractive index in a second direction orthogonal to the thickness direction, and a third refractive index in a third direction orthogonal to the thickness direction and to the second direction, an absolute value of a difference in the first and second refractive indices being less than 0.02, an absolute value of a difference in the second and third refractive indices being greater than 0.05; wherein each chief ray that passes through the optical system is first incident on the reflective polarizer at an angle of incidence less than 30 degrees; and wherein the optical system is adapted to provide an adjustable focus. 2. The optical system of claim 1 , wherein the adjustable focus is provided, at least in part, by an adjustable distance between two surfaces in the optical system. 3. The optical system of claim 2 , wherein the two surfaces comprise a surface of the reflective polarizer and a surface of the partial reflector. 4. The optical system of claim 1 , wherein an optical stack comprises the partial reflector, and the adjustable focus is provided, at least in part, by an adjustable shape of the optical stack. 5. The optical system of claim 1 , wherein an optical stack comprises the reflective polarizer, and the adjustable focus is provided, at least in part, by an adjustable shape of the optical stack. 6. The optical system of claim 1 , wherein each chief ray that passes through the optical system is incident on the reflective polarizer at an angle of incidence less than 25 degrees each time that the chief ray is incident on the reflective polarizer. 7. The optical system of claim 6 , wherein the absolute value of the difference in the first and second refractive indices is less than 0.01, and the absolute value of the difference in the second and third refractive indices is greater than 0.10. 8. The optical system of claim 1 , wherein the absolute value of the difference in the first and second refractive indices is less than 0.01, and the absolute value of the difference in the second and third refractive indices is greater than 0.10. 9. A head-mounted display comprising a first optical system according to claim 1 , a second optical system according to claim 1 , and an eye-tracking system, the head-mounted display being adapted to stereoscopically present first and second virtual images of an object to a viewer through the respective first and second optical systems, the eye-tracking system being configured to detect a viewing direction, wherein the head-mounted display is adapted to adjust first and second virtual image distances of the respective first and second virtual images to match a depth of the object as presented stereoscopically in the viewing direction by adjusting the adjustable focus of at least one of the first and second optical systems. 10. An optical system comprising: a reflective surface; a display adapted to emit image light toward the reflective surface; and a multilayer reflective polarizer disposed proximate the reflective surface, the multilayer reflective polarizer being curved about two orthogonal axes and comprising at least one layer substantially optically uniaxial at at least one location, wherein the image light is transmitted by the multilayer reflective polarizer after it is first reflected by the multilayer reflective polarizer; wherein each chief ray in the image light is first incident on the multilayer reflective polarizer at an angle of incidence less than 30 degrees; and wherein the optical system is adapted to provide an adjustable focus. 11. The optical system of claim 10 , wherein the at least one layer at the at least one location has a first refractive index in a thickness direction, a second refractive index in a second direction orthogonal to the thickness direction, and a third refractive index in a third direction orthogonal to the thickness direction and to the second direction, an absolute value of a difference in the first and second refractive indices being less than 0.02, an absolute value of a difference in the second and third refractive indices being greater than 0.05. 12. The optical system of claim 10 , wherein the at least one layer at the at least one location has a first refractive index in a thickness direction, a second refractive index in a second direction orthogonal to the thickness direction, and a third refractive index in a third direction orthogonal to the thickness direction and to the second direction, an absolute value of a difference in the first and second refractive indices being less than 0.01, an absolute value of a difference in the second and third refractive indices being greater than 0.10.