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A curved optical device includes a pair of initially flat opposed flexible substrates that may have a fluid material with spacers disbursed therein disposed between the pair of substrates and sealed. The substrates have a uniform controlled distance therebetween. The substrates are permanently curve

A curved optical device includes a pair of initially flat opposed flexible substrates that may have a fluid material with spacers disbursed therein disposed between the pair of substrates and sealed. The substrates have a uniform controlled distance therebetween. The substrates are permanently curved by applying heat and pressure with a mold while maintaining the controlled distance therebetween. The fluid material maybe a liquid crystal to provide the optical device with enhanced optical properties.

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What is claimed is: 1. A thermoformed curved optical device, comprising: a pair of opposed flexible thermoplastic substrates; and a plurality of spacers disposed between said pair of thermoplastic substrates, said substrates having a controlled distance therebetween maintained by use of said spacer

What is claimed is: 1. A thermoformed curved optical device, comprising: a pair of opposed flexible thermoplastic substrates; and a plurality of spacers disposed between said pair of thermoplastic substrates, said substrates having a controlled distance therebetween maintained by use of said spacers and adapted to receive a fluid; characterized in that said pair of thermoplastic substrates are thermoformed to permanently retain a curved shape with a curvature of up to 10 diopters in at least one dimension while maintaining said controlled distance therebetween. 2. The device according to claim 1, further comprising: a fluid material disposed between said pair of thermoplastic substrates, wherein said fluid material comprises a dye, a photochromic dye, an electrochromic electrolyte, or a liquid crystal material. 3. The device according to claim 1, further comprising: a first half-lens having a curved surface positioned adjacent to one side of said pair of permanently curved substrates, wherein said pair of curved substrates substantially conforms to the shape of said curved surface of said first half-lens. 4. The device according to claim 3, further comprising: a second half-lens having a curved surface positioned adjacent to an opposite side of said pair of permanently curved substrates, wherein the opposite side of said pair of curved substrates substantially conforms to the shape of said curved surface of said second half-lens. 5. The device according to claim 1, further comprising: at least a second pair of opposed flexible thermoplastic substrates; a plurality of uniformly sized spacers disposed between said second pair of thermoplastic substrates, said second pair of thermoplastic substrates having a controlled distance therebetween and adapted to receive a fluid; and said second pair of thermoplastic substrates thermoformed to permanently retain said curved shape while maintaining said controlled distance therebetween; wherein said first and second pairs of thermoplastic substrates substantially conform to each other's curvatures. 6. The device according to claim 1, wherein said first pair of thermoplastic substrates has a first fluid material contained therebetween and wherein said second pair of thermoplastic substrates has a second fluid material contained therebetween. 7. The device according to claim 1, wherein said optical device provides a curvature of up to 10 diopters in one dimension and independently a second curvature of up to 10 diopters in a second dimension. 8. A thermoformed curved optical device, comprising: a pair of opposed flexible thermoplastic substrates; and a plurality of spacers disposed between said pair of thermoplastic substrates, said substrates having a controlled distance therebetween maintained by use of said spacers and adapted to receive a fluid; characterized in that after the thermoplastic substrates and the spacers are assembled the device is thermoformed to permanently retain a single curvature while maintaining said controlled distance therebetween. 9. The device according to claim 8, wherein said curvature is up to 10 diopters. 10. The device according to claim 8, further comprising a fluid material disposed between said pair of thermoplastic substrates, wherein said fluid material is selected from a dye, a photochromic dye, an electrochromic electrolyte, or a liquid crystal material. 11. The device according to claim 8, wherein said opposed flexible substrates are initially curved and are thermoformed to permanently retain an additional curvature. 12. A method for constructing a thermoformed optical device, comprising: assembling a pair of opposed flexible thermoplastic substrates and a plurality of spacers disposed between said pair of thermoplastic substrates to form a separated layer stack; said thermoplastic substrates having a controlled distance therebetween to form a gap maintained by use of said spacers and adapted to receive a fluid; and thermoforming said assembled separated layer stack to permanently retain a desired curvature in at least one dimension while maintaining said controlled distance. 13. The method according to claim 12, wherein said assembling step comprises assembling a pair of initially curved opposed flexible thermoplastic substrates to form a separated layer stack. 14. The method according to claim 12, further comprising: disposing a fluid material into said gap after the thermoforming step, and selectively sealing said gap; wherein said fluid material is selected from a dye, a photochromic dye, an electrochromic electrolyte, or a liquid crystal material. 15. The method according to claim 12, further comprising: disposing a fluid material into said gap and selectively sealing said gap before the thermoforming step; wherein said fluid material is selected from a dye, a photochromic dye, an electrochromic electrolyte, or a liquid crystal material. 16. The method according to claim 12, further comprising: positioning a first half-lens having a curved surface adjacent to one side of said layer stack, wherein one side of said stack substantially conforms to the shape of said curved surface of said first half-lens. 17. The method according to claim 16, further comprising: positioning a second half-lens having a curved surface adjacent to an opposite side of said layer stack, wherein the opposite side of said layer stack substantially conforms to the shape of said curved surface of said second half-lens. 18. The method according to claim 12, further comprising: assembling a second pair of opposed flexible thermoplastic substrates and a plurality of uniformly sized spacers disposed between said second pair of thermoplastic substrates, said second pair of thermoplastic substrates having a controlled distance therebetween maintained by said spacers and adapted to receive a fluid; and thermoforming said assembled first and second pair of substrates to permanently retain a desired curvature of up to 10 diopters in at least one dimension while maintaining said controlled distances. 19. The method according to claim 18, said first pair of thermoplastic substrates has a first fluid material contained therebetween and wherein said second pair of thermoplastic substrates has a second fluid material contained therebetween. 20. The method according to claims 12, wherein the thermoforming step comprises: thermoforming said assembled separated layer stack to permanently retain a desired first curvature up to 10 diopters in one dimension and independently a desired second curvature up to 10 diopters in a second dimension, while maintaining said controlled distance.