Optical systems having gradient index optical structures

What is claimed is: 1. A display system comprising: a display module that produces image light; a waveguide having first and second opposing surfaces; an input coupler configured to couple the image light into the waveguide, wherein the input coupler comprises an input coupling prism or a first diffractive grating; a second diffractive grating configured to diffract the image light out of the waveguide; and a gradient index (GRIN) lens separate from the second diffractive grating and the waveguide, wherein the second diffractive grating is interposed between the GRIN lens and the waveguide along an axis perpendicular to the first surface, wherein the GRIN lens has a gradient refractive index, and wherein world light passes through the GRIN lens. 2. The display system of claim 1 , further comprising: a first additional lens overlapping the second diffractive grating along the axis and through which the world light and the image light pass. 3. The display system of claim 1 , further comprising: a second additional lens overlapping the second diffractive grating along the axis and through which the world light passes, wherein the waveguide is interposed between the first and second additional lenses and wherein the first additional lens is interposed between the waveguide and the GRIN lens. 4. The display system of claim 3 , wherein the second additional lens has a positive optical power with a first magnitude, wherein the first additional lens has a first negative optical power with the first magnitude, and wherein the GRIN lens has a second negative magnitude with a second magnitude greater than the first magnitude. 5. The display system of claim 4 , wherein the second additional lens is a plano-convex lens and the first additional lens is a plano-concave lens. 6. The display system of claim 1 , further comprising: a first additional lens overlapping the second diffractive grating along the axis and through which the world light passes, wherein the waveguide is interposed between the GRIN lens and the first additional lens. 7. The display system of claim 6 , wherein the GRIN lens has a negative optical power with a first magnitude and wherein the first additional lens has a positive optical power with a second magnitude that is less than the first magnitude. 8. The display system of claim 6 , wherein the GRIN lens has a positive optical power with a first magnitude and wherein the first additional lens has a negative optical power with a second magnitude that is greater than the first magnitude. 9. The display system of claim 1 , wherein the image light passes through the GRIN lens. 10. The display system of claim 7 , wherein the GRIN lens has a shape selected from the group consisting of: a plano-convex shape, a plano-concave shape, and a convex concave shape. 11. The display system of claim 1 , wherein the GRIN lens comprises a prescription lens. 12. The display system of claim 1 , wherein the GRIN lens comprises an asymmetric lens. 13. A display system comprising: a display module that produces image light; a waveguide having first and second opposing surfaces; an input coupler configured to couple the image light into the waveguide, wherein the input coupler comprises an input coupling prism or a first diffractive grating; a second diffractive grating configured to diffract the image light out of the waveguide; a gradient index (GRIN) lens separate from the second diffractive grating and the waveguide, wherein the second diffractive grating is interposed between the GRIN lens and the waveguide along an axis perpendicular to the first surface, wherein the GRIN lens has a gradient refractive index, wherein world light passes through the GRIN lens, and wherein the GRIN lens has a negative optical power with a first magnitude; and an additional lens overlapping the second diffractive grating along the axis and through which the world light passes, wherein the waveguide is interposed between the GRIN lens and the additional lens and wherein the additional lens has a positive optical power with a second magnitude that is less than the first magnitude. 14. The display system of claim 13 , further comprising: imaging optics configured to direct the image light towards the input coupler, wherein the imaging optics comprises a first additional GRIN lens having a first additional gradient refractive index. 15. The display system of claim 14 , wherein the imaging optics comprises a second additional GRIN lens having a second additional gradient refractive index. 16. The display system of claim 13 , wherein the GRIN lens comprises a set of stacked nanolayers having different refractive indices. 17. The display system of claim 13 , wherein the waveguide has a first lateral surface facing the imaging optics and a second lateral surface opposite the first lateral surface and wherein the waveguide is configured to propagate the image light toward the output coupler in a direction parallel to the first and second lateral surfaces. 18. The display system of claim 13 , wherein the additional lens is an additional GRIN lens having an additional gradient refractive index. 19. The display system of claim 13 , wherein the additional lens has a homogenous refractive index. 20. The display system of claim 13 , further comprising: an additional GRIN lens having an additional gradient refractive index, wherein the GRIN lens and the additional GRIN lens are on a same side of the waveguide. 21. A display system comprising: a display module that produces image light; a waveguide having first and second opposing surfaces; an input coupler configured to couple the image light into the waveguide, wherein the input coupler comprises an input coupling prism or a first diffractive grating; a second diffractive grating configured to diffract the image light out of the waveguide; a gradient index (GRIN) lens separate from the second diffractive grating and the waveguide, wherein the second diffractive grating is interposed between the GRIN lens and the waveguide along an axis perpendicular to the first surface, wherein the GRIN lens has a gradient refractive index, wherein world light passes through the GRIN lens, and wherein the GRIN lens has a positive optical power with a first magnitude; and an additional lens overlapping the second diffractive grating along the axis and through which the world light passes, wherein the waveguide is interposed between the GRIN lens and the additional lens and wherein the additional lens has a negative optical power with a second magnitude that is greater than the first magnitude. 22. The display system of claim 21 , further comprising: imaging optics configured to direct the image light towards the input coupler, wherein the imaging optics comprises an additional GRIN lens having an additional gradient refractive index. 23. The display system of claim 21 , further comprising: an additional GRIN lens having an additional gradient refractive index, wherein the additional lens and the additional GRIN lens are on a same side of the waveguide. 24. The display system of claim 21 , wherein the additional lens has a gradient refractive index or a homogenous refractive index. 25. The display system of claim 21 , wherein the GRIN lens comprises a set of stacked nanolayers having different refractive indices.