Curved see-through pancake lens assembly and display device including the same

What is claimed is: 1. An optical assembly comprising: a substrate having a first surface and a second surface opposite the first surface, the first surface having a first curved profile and the second surface having a second curved profile; a beam splitter on the first surface and conforming with the first curved profile of the first surface; and a reflector on the second surface and conforming with the second curved profile of the second surface, wherein the optical assembly is configured to: receive first light at the first surface, and reflect the first light at the reflector and subsequently at the beam splitter before outputting the first light from the reflector, whereby the first light is transmitted through the optical assembly at a first optical power; and transmit second light through the optical assembly without reflection at the reflector, wherein the second light is transmitted through the optical assembly at a second optical power that is less than the first optical power. 2. The optical assembly of claim 1 , further comprising an optical retarder disposed between the beam splitter and the reflector. 3. The optical assembly of claim 1 , wherein the second optical power is zero. 4. The optical assembly of claim 1 , wherein: each of the first surface and the second surface has a curvature; and the first optical power is dependent on the curvature. 5. The optical assembly of claim 1 , wherein: the first light received at the first surface is propagating in a first direction; the first light is output from the reflector in a second direction that is different from the first direction; the second light received at the first surface is propagating in a third direction; and the second light is output from the optical assembly in a fourth direction substantially parallel to the third direction. 6. The optical assembly of claim 1 , wherein the optical assembly is configured to transmit the second light without significant optical aberration. 7. The optical assembly of claim 1 , wherein: the first light received at the first surface has a first polarization; the first light output from the reflector has a second polarization that is different from the first polarization; the second light received at the first surface has a third polarization different from each of the first polarization and second polarization; and the second light output from the optical assembly has the second polarization. 8. The optical assembly of claim 7 , wherein the reflector is configured to reflect or transmit light incident thereon depending on its polarization. 9. The optical assembly of claim 1 , wherein the substrate has a substantially uniform thickness. 10. The optical assembly of claim 1 , wherein the first curved profile and the second curved profile are concentric spherical profiles. 11. A display device comprising: a display configured to output image light and configurable to transmit ambient light; and an optical assembly including: a first surface having a first curved profile and a second surface having a second curved profile; a beam splitter on the first surface and conforming with the first curved profile of the first surface; a reflector on second surface and conforming with the second curved profile of the second surface, wherein the optical assembly is configured to: receive the image light at the first surface, and reflect the image light at the reflector and subsequently at the beam splitter before outputting the image light from the reflector, whereby the image light is transmitted through the optical assembly at a first optical power; and transmit the ambient light through the optical assembly without reflection at the reflector, wherein the ambient light is transmitted through the optical assembly at a second optical power that is less than the first optical power. 12. The display device of claim 11 , further comprising an optical retarder disposed between the beam splitter and the reflector. 13. The display device of claim 12 , wherein the optical assembly is configured to transmit the ambient light without significant optical aberration. 14. The display device of claim 11 , wherein the second optical power is zero. 15. The display device of claim 11 , wherein: each of the first surface and the second surface has a curvature; and the first optical power is dependent on the curvature. 16. The display device of claim 11 , wherein: the image light received at the first surface is propagating in a first direction; the image light is output from the reflector in a second direction that is different from the first direction; the ambient light received at the first surface is propagating in a third direction; and the ambient light is output from the optical assembly in a fourth direction substantially parallel to the third direction. 17. The display device of claim 11 , wherein: the image light received at the first surface has a first polarization; the image light output from the reflector has a second polarization that is different from the first polarization; the ambient light received at the first surface has a third polarization different from each of the first polarization and second polarization; and the ambient light output from the optical assembly has the second polarization. 18. The display device of claim 17 , wherein the reflector is configured reflect or transmit light incident thereon depending on its polarization. 19. The display device of claim 11 , wherein the display device is a head-mounted display device. 20. A method of transmitting light through an optical assembly, the method comprising: transmitting image light, including: receiving the image light at a first surface of a substrate, the substrate having a first curved profile; reflecting the image light at a reflector having a second curved profile; reflecting the image light at a beam splitter on the first surface, the beam splitter conforming with the first curved profile of the first surface; and outputting the image light from the reflector at a first optical power; and transmitting ambient light, including: receiving the ambient light at the first surface; transmitting the ambient light through the optical assembly without reflection at the reflector; and outputting the ambient light from the optical assembly at a second optical power that is less than the first optical power.