Holographic display

The invention claimed is: 1. A display device comprising: an optical sensor configured to image a user eye; an image source configured to provide image light; a holographic film including a plurality of holograms, each hologram recorded with a same reference beam but recorded differently so as to differently diffract image light received from the light source, and each hologram being recorded with a different amount of shear applied to the holographic film; and a controller configured to 1) determine, via the optical sensor, a position of the user eye, and 2) adjust, based on the determined position of the user eye, a state of the holographic film such that a particular hologram of the plurality of holograms diffracts image light to intersect the position of the user eye. 2. The display device of claim 1 , wherein non-active holograms other than the particular hologram do not diffract image light to the position of the user eye while the particular hologram diffracts image light to the position of the user eye. 3. The display device of claim 1 , further comprising: a shearing mechanism configured to adjust an amount of shear applied to the holographic film, and wherein the state of the holographic film corresponds to the amount of shear applied to the holographic film. 4. The display device of claim 3 , wherein the shearing mechanism includes one or more piezoelectric elements, and wherein adjusting the amount of shear applied to the holographic film includes adjusting a voltage applied to the one or more piezoelectric elements. 5. The display device of claim 1 , further comprising: a waveguide configured to propagate the image light from the image source to the holographic film, and wherein the holographic film is adjacent the waveguide. 6. The display device of claim 1 , wherein the display device is a near-eye display device. 7. The display device of claim 1 , wherein the position of the user eye is a position of a pupil of the user eye. 8. A near-eye display device comprising: an optical sensor configured to image a user eye; an image source configured to provide image light; a waveguide configured to propagate image light from the image source to a field of view of a user eye; a holographic film adjacent the waveguide, the holographic film including a plurality of holograms, each hologram recorded with a same reference beam, but recorded differently so as to differently diffract image light received from the waveguide, and each hologram being recorded with a different amount of shear applied to the holographic film; and a controller configured to 1) determine, via the optical sensor, a position of the user eye, and 2) adjust, based on the determined position of the user eye, a state of the holographic film such that a particular hologram of the plurality of holograms diffracts image light to intersect the position of the user eye. 9. The near-eye display device of claim 8 , wherein non-active holograms other than the particular hologram do not diffract image light to the position of the user eye while the particular hologram diffracts image light to the position of the user eye. 10. The near-eye display device of claim 8 , further comprising: a shearing mechanism configured to adjust an amount of shear applied to the holographic film, and wherein the state of the holographic film corresponds to the amount of shear applied to the holographic film. 11. The near-eye display device of claim 10 , wherein the shearing mechanism includes one or more piezoelectric elements, and wherein adjusting the amount of shear applied to the holographic film includes adjusting a voltage applied to the one or more piezoelectric elements. 12. The near-eye display device of claim 8 , wherein the position of the user eye is a position of a pupil of the user eye. 13. On a display device including a holographic film including a plurality of holograms, each hologram recorded with a same reference beam, but recorded differently to differently diffract image light, and each hologram being recorded with a different amount of shear applied to the holographic film, a method for projecting an image, the method comprising: determining, via an optical sensor, a position of a user eye; providing, via an image source, image light to the holographic film; and adjusting, based on the determined position of the user eye, an amount of shear applied to the holographic film such that a particular hologram of a plurality of holograms diffracts image light to intersect the position of the user eye. 14. The method of claim 13 , wherein the display device further comprises a shearing mechanism configured to adjust the amount of shear applied to the holographic film. 15. The method of claim 14 , wherein the shearing mechanism includes one or more piezoelectric elements, and wherein adjusting the amount of shear applied to the holographic film includes adjusting a voltage applied to the one or more piezoelectric elements.