Multifocal system using pixel level polarization controllers and folded optics

What is claimed is: 1. A head-mounted display (HMD) comprising: a multifocal structure having a plurality of possible focal distances, the multifocal structure comprising: a plurality of optical components positioned in series such that light from an electronic display is received and passes through each of the plurality of optical components at least once before being output from the multifocal structure, the plurality of optical components including: a pixel level polarizer positioned to receive light from the electronic display, the pixel level polarizer having a first configuration that causes the pixel level polarizer to linearly polarize light in a first direction and a second configuration that causes the pixel level polarizer to linearly polarize light in a second direction that is different than the first direction, and wherein the multifocal structure is configured to output image light at different focal distances based in part on the configuration of the pixel level polarizer; a liquid crystal (LC) element that has an active state that adjusts optical power of incident light and a neutral state that does not affect optical power of incident light; and a folded optics assembly that is configured to direct light along different optical paths based in part on a polarization of light incident on the folded optics assembly, and wherein the different optical paths each have different optical path lengths. 2. The HMD of claim 1 , wherein: the plurality of optical elements includes a first quarter wave plate (QWP) positioned to receive light from the pixel level polarizer; and the folded optics assembly includes: a 50:50 reflective element positioned to receive light from the first QWP; a second QWP positioned to receive light from the 50:50 reflective element; and a polarizer positioned to receive light from the second QWP. 3. The HMD of claim 2 , wherein: the LC element is positioned between the first QWP and the 50:50 reflective element. 4. The HMD of claim 2 , wherein: the LC element lens is positioned between the 50:50 reflective element and the second QWP. 5. The HMD of claim 2 , wherein: a third QWP is positioned to receive light from the polarizer; and the LC element is positioned to receive light from the third QWP. 6. A head-mounted display (HMD) comprising: a multifocal structure having a plurality of possible focal distances, the multifocal structure comprising: a plurality of optical components positioned in series such that light from an electronic display is received and passes through each of the plurality of optical components at least once before being output from the multifocal structure, the plurality of optical components including: a pixel level polarizer positioned to receive light from the electronic display, the pixel level polarizer having a first configuration that causes the pixel level polarizer to linearly polarize light in a first direction and a second configuration that causes the pixel level polarizer to linearly polarize light in a second direction that is different than the first direction, and wherein the multifocal structure is configured to output image light at different focal distances based in part on the configuration of the pixel level polarizer; and an active Pancharatnam Berry Phase (PBP) LC lens having an additive state that adds optical power, a subtractive state that subtracts optical power, and a neutral state. 7. The HMD of claim 1 , wherein the active state of the LC element includes an additive state that adds optical power. 8. The HMD of claim 1 , further comprising: an eye tracking system configured to determine eye tracking information for an eye of the user; and wherein the eye tracking system is further configured to: determine a focal distance, of the plurality of focal distances, using the eye tracking information, wherein the focal distance is the first focal distance, generate focus instructions using the determined first focal distance, and provide the focus instructions to the multifocal structure, wherein responsive to receipt of the focus instructions the multifocal structure configures the pixel level polarizer and the LC element to output light at the first focal distance. 9. An optical system for an electronic display, comprising: a multifocal structure having a plurality of possible focal distances, the multifocal structure comprising: a plurality of optical components positioned in series such that light from an electronic display is received and passes through each of the plurality of optical components at least once before being output from the multifocal structure, the plurality of optical components including: a pixel level polarizer positioned to receive light from the electronic display, the pixel level polarizer having a first configuration that causes the pixel level polarizer to linearly polarize light in a first direction and a second configuration that causes the pixel level polarizer to linearly polarize light in a second direction that is different than the first direction; a liquid crystal (LC) lens element having an active state has a state that adjusts optical power of incident light and a neutral state that does not affect optical power of incident light, wherein the multifocal structure is configured to output image light at one or more different focal distances based in part on the configuration of the pixel level polarizer and the state of the LC lens element; and a folded optics assembly that is configured to direct light along different optical paths based in part on a polarization of light incident on the folded optics assembly, and wherein the different optical paths each have different optical path lengths. 10. The optical system of claim 9 , wherein: the plurality of optical elements includes a first quarter wave plate (QWP) positioned to receive light from the pixel level polarizer; and the folded optics assembly includes: a 50:50 reflective element positioned to receive light from the first QWP; a second QWP positioned to receive light from the 50:50 reflective element; and a polarizer positioned to receive light from the second QWP. 11. The optical system of claim 10 , wherein: the LC lens element is positioned between the first QWP and the 50:50 reflective element. 12. The optical system of claim 10 , wherein: the LC lens element is positioned between the 50:50 reflective element and the second QWP. 13. The optical system of claim 10 , wherein: a third QWP is positioned to receive light from the polarizer; and the LC lens element is positioned to receive light from the third QWP. 14. The optical system of claim 9 , wherein the LC lens element is an active Pancharatnam Berry Phase (PBP) LC lens having an additive state that adds optical power, a subtractive state that subtracts optical power, and a neutral state. 15. The optical system of claim 9 , wherein the LC lens element is a liquid crystal lens having an additive state that adds optical power and a neutral state. 16. The optical system of claim 9 , wherein the pixel level polarizer includes a plurality of cells including at least a first set and a second set, and the pixel the pixel level polarizer has a third configuration that causes the pixel level polarizer to linearly polarize light passing through the first set of cells in the first direction and to linearly polarize light passing through the second set of cells in the second direction. 17. The optical system of claim 9 , further comprising: an eye tracking system configured to determine eye trackin