Systems, articles, and methods for integrating holographic optical elements with eyeglass lenses

The invention claimed is: 1. A method of manufacturing a curved lens for use in a wearable heads-up display, the method comprising: providing a lens mold having a cavity wherein at least one inner face of the lens mold is curved; recording a hologram that compensates for an optical effect of a curvature of the lens into a photopolymer film, the curvature of the lens generated by at least one of: the dimensions and geometry of the lens when the lens is cured, and grinding away lens material, wherein the optical effect of a curvature of the lens comprises refraction caused by the curvature of the lens; positioning the photopolymer film within the cavity of the lens mold; casting a lens-forming fluid into the cavity; and curing the lens-forming fluid within the cavity to form a lens having the photopolymer film embedded therein, the lens having dimensions and a geometry at least approximately equal to the cavity. 2. The method of claim 1 , further comprising: applying a curvature to the photopolymer film before casting the lens-forming fluid into the cavity. 3. The method of claim 2 wherein recording a hologram that compensates for an optical effect of a curvature of the lens into a photopolymer film includes recording a hologram that compensates for the curvature applied to the photopolymer film. 4. The method of claim 1 , further comprising: applying an optical adhesive to at least one surface of the photopolymer film before positioning the photopolymer film within the cavity of the lens mold. 5. The method of claim 1 , further comprising: applying an eyeglass prescription to the lens after curing the lens-forming fluid within the cavity to form the lens, wherein recording a hologram that compensates for an optical effect of a curvature of the lens into a photopolymer film includes recording a hologram that compensates for refraction of light due to the eyeglass prescription of the lens. 6. The method of claim 1 wherein recording a hologram that compensates for an optical effect of a curvature of the lens into a photopolymer film includes recording a hologram that compensates for an alteration of an incoming property of laser light impingent on the hologram caused by the curvature of the lens. 7. The method of claim 1 wherein recording a hologram that compensates for an optical effect of a curvature of the lens into a photopolymer film includes recording a hologram that compensates for an alteration of an outgoing property of laser light redirected by the hologram caused by the curvature of the lens. 8. The method of claim 1 wherein recording a hologram that compensates for an optical effect of a curvature of the lens into a photopolymer film includes recording a hologram that compensates for a shift in the trajectory of a projected di splay light. 9. The method of claim 8 wherein recording a hologram that compensates for a shift in the trajectory of projected display light includes recording a hologram that compensates for a shift in the trajectory of a projected display light caused by refraction of the projected display light. 10. The method of claim 1 wherein recording a hologram that compensates for an optical effect of a curvature of the lens into a photopolymer film includes recording a hologram that compensates for an optical power of the lens. 11. The method of claim 10 wherein the lens comprises a prescription lens and wherein recording a hologram that compensates for an optical effect of a curvature of the lens into a photopolymer film includes recording a hologram that compensates for a prescription optical power of the lens. 12. A lens for use in a wearable heads-up display, the lens prepared by a process comprising the acts of: providing a lens mold having a cavity wherein at least one inner face of the lens mold is curved; recording a hologram that compensates for an optical effect of a curvature of the lens into a photopolymer film, the curvature of the lens generated by at least one of: the dimensions and geometry of the lens when the lens is cured, and grinding away lens material, wherein the optical effect of a curvature of the lens comprises refraction caused by the curvature of the lens; positioning the photopolymer film within the cavity of the lens mold; casting a lens-forming fluid into cavity; and curing the lens-forming fluid within the cavity to form a lens having the photopolymer film embedded therein, the lens having dimensions and a geometry at least approximately equal to the cavity.