Optical assembly

What is claimed is: 1. An optical assembly, comprising an optical element insert molded directly onto an optical stack, the optical stack comprising an integrally formed optical film and at least one additional layer not integral with the optical film, the optical film being disposed between the optical element and the at least one additional layer, the optical film comprising a plurality of alternating polymeric layers reflecting or transmitting light primarily by optical interference, a bonding of the optical film to the optical element being stronger than an interlayer bonding between at least one pair of immediately adjacent layers in the optical film, the optical film being diffusion bonded to the optical element. 2. The optical assembly of claim 1 , wherein the optical element is injection insert molded directly onto the optical stack. 3. The optical assembly of claim 2 , wherein a melting temperature of the optical element is substantially larger than a glass transition temperature of the optical film. 4. The optical assembly of claim 2 , wherein a melting temperature of the optical element and a melting temperature of the optical film differ by less than 10° C. 5. The optical assembly of claim 1 , wherein each location over at least about 80% of a total area of the optical film has a reflectance greater than about 80% for normally incident light having a same predetermined wavelength and a same first polarization state. 6. The optical assembly of claim 5 , wherein each location over at least about 80% of the total area of the optical film has a reflectance greater than about 80% for normally incident light having the predetermined wavelength and a same second polarization state orthogonal to the first polarization state. 7. The optical assembly of claim 5 , wherein each location over at least about 80% of the total area of the optical film has a transmittance greater than about 80% for normally incident light having the predetermined wavelength and a same second polarization state orthogonal to the first polarization state. 8. The optical assembly of claim 1 , wherein the at least one additional layer comprises a liner and a protective coating disposed on the optical film between the optical film and the liner, wherein the protective coating comprises an at least partially cured composition comprising: a) 70 to 90 weight percent of a urethane (meth)acrylate compound having an average (meth)acrylate functionality of 3 to 9, based on the total weight of components a) to d); b) 5 to 20 weight percent of a (meth)acrylate monomer having a (meth)acrylate functionality of 1 to 2, based on the total weight of components a) to d), wherein the (meth)acrylate monomer is not a urethane (meth)acrylate compound; c) 0.5 to 2 weight percent of silicone (meth)acrylate, based on the total weight of components a) to d); and d) optional effective amount of photoinitiator. 9. The optical assembly of claim 1 , wherein the optical element at least partially wraps around an edge of the optical film to be substantially flush with the optical film. 10. The optical assembly of claim 1 , wherein the optical element is a lens having an optical retardance of no more than about 10 nm at each location over at least 80% of a major surface of the lens. 11. The optical assembly of claim 1 , wherein the at least one additional layer comprises a liner releasably bonded to the optical film such that for each location over at least 80% of a total area of the optical film: the optical film has a reflectance greater than about 80% for normally incident light having a same predetermined wavelength and a same first polarization state; and a difference between the reflectance of the optical film at the location before and after the liner is removed is less than about 5%. 12. An optical assembly, comprising: an integrally formed multilayer optical film, the optical film comprising a plurality of alternating polymeric layers reflecting or transmitting light primarily by optical interference; and an optical element insert molded directly onto the optical film, the optical film being diffusion bonded to the optical element, wherein the bonding of the optical film to the optical element is stronger than an interlayer bonding between at least one pair of immediately adjacent layers in the optical film. 13. The optical assembly of claim 12 , wherein the optical element is injection insert molded directly onto the optical film and a melting temperature of the optical element is at least about 50° C. larger than a glass transition temperature of the optical film. 14. The optical assembly of claim 12 , wherein each location on the optical film has a reflectance greater than about 80% for normally incident light having a same predetermined wavelength and a same first polarization state. 15. The optical assembly of claim 14 , wherein each location on the optical film has a reflectance greater than about 80% for normally incident light having the predetermined wavelength and a same second polarization state orthogonal to the first polarization state. 16. The optical assembly of claim 14 , wherein each location on the optical film has a transmittance greater than about 80% for normally incident light having the predetermined wavelength and a same second polarization state orthogonal to the first polarization state. 17. An optical assembly, comprising: an integrally formed multilayer optical film, the optical film comprising a plurality of alternating polymeric layers reflecting or transmitting light primarily by optical interference, each location over at least 90% of a total area of the optical film having a reflectance greater than about 90% for normally incident light having a same predetermined wavelength and a same first polarization state; and an optical element insert molded directly onto the optical film, the optical film being diffusion bonded to the optical element. 18. The optical assembly of claim 17 , wherein a melting temperature of the optical element is at least about 50° C. larger than a glass transition temperature of the optical film. 19. The optical assembly of claim 17 , wherein the bonding of the optical film to the optical element is stronger than an interlayer bonding between at least one pair of immediately adjacent layers in the optical film. 20. The optical assembly of claim 17 , wherein the optical film is a reflective polarizer, each location on the reflective polarizer substantially reflecting normally incident light having the predetermined wavelength and a block polarization state and substantially transmitting normally incident light having the predetermined wavelength and an orthogonal pass polarization state, the first polarization state being the block polarization state at a center of the reflective polarizer. 21. The optical assembly of claim 20 , wherein each location on the optical film has a transmittance less than about 1% for normally incident light having the predetermined wavelength and the block polarization state.