Eyewear with chroma enhancement

What is claimed is: 1. Eyewear comprising: a lens comprising: a first lens element comprising a first lens material; a second lens element comprising a second lens material; a polarizing layer disposed between the first lens element and the second lens element; a lens layer disposed between at least one of: the first lens element and the polarizing layer, or the polarizing layer and the second lens element; and an optical filter disposed in the lens layer, wherein the optical filter has a spectral transmittance and an average visible light transmittance, and wherein the optical filter is configured to receive light and output filtered light; wherein the optical filter comprises at least one chroma enhancement dye that increases an average chroma value of the filtered light relative to an average chroma value of a reference light that passes through a reference filter that has a uniform attenuation spectral transmittance equal to the average visible light transmittance of the optical filter, wherein chroma value is the C* coordinate of the CIE L*C*h* color space; wherein the average chroma value of the filtered light and the average chroma value of the reference light are determined by: calculating a filtered spectral light intensity profile for a plurality of uniform intensity light stimuli, wherein each of the plurality of uniform intensity light stimuli has a bandwidth of 30 nm, a center wavelength within a spectral range, and a spectral light intensity profile with uniform intensity within the bandwidth, wherein the filtered spectral light intensity profile is the spectral transmittance of the optical filter multiplied by the spectral light intensity profile, and wherein a reference spectral light intensity profile is the uniform attenuation spectral transmittance multiplied by the spectral light intensity profile; weighting each reference spectral light intensity profile and each filtered spectral light intensity profile by L, M, and S fundamental cone sensitivities; transforming each weighted reference spectral light intensity profile and each weighted filtered spectral light intensity profile to the CIE L*C*h* color space, wherein the C* coordinate is determined at the center wavelength for each of the plurality of uniform intensity light stimuli; and calculating a mean of the C* coordinates of each of the filtered and reference spectral light intensity profiles determined at the center wavelength for each of the plurality of uniform intensity light stimuli, wherein the spectral range comprises at least one of 440 nm to 510 nm, 540 nm to 600 nm, or 630 nm to 660 nm. 2. The eyewear of claim 1 , wherein the at least one chroma enhancement dye has a solubility from 0.6 gm/L to 14 gm/L in toluene. 3. The eyewear of claim 2 , wherein the at least one chroma enhancement dye has a dye strength less than or equal to 490 L/(g·cm) in methylene chloride within the spectral range. 4. The eyewear of claim 1 , wherein the at least one chroma enhancement dye has a dye strength greater than or equal to 44 L/(g·cm) in methylene chloride within the spectral range. 5. The eyewear of claim 1 , wherein the lens layer is a film. 6. The eyewear of claim 5 , wherein lens layer is an extruded film layer. 7. The eyewear of claim 1 , wherein the lens layer comprises an adhesive layer. 8. The eyewear of claim 1 , wherein the first lens material and the second lens material comprise glass. 9. The eyewear of claim 1 , wherein the optical filter increases the average chroma value of the filtered light relative to the average chroma value of the reference light in a first chroma enhancement window between 440 nm and 510 nm. 10. The eyewear of claim 9 , wherein the optical filter increase the average chroma value of the filtered light relative to the average chroma value of the reference light in a second chroma enhancement window between 540 nm and 600 nm. 11. The eyewear of claim 9 , wherein the optical filter increases the average chroma value of the filtered light relative to the average chroma value of the reference light in a third chroma enhancement window between 630 nm and 660 nm. 12. The eyewear of claim 1 , wherein the lens has a CIE chromaticity x value from 0.3 to 0.34. 13. The eyewear of claim 12 , wherein the lens has a CIE chromaticity y value from 0.31 to 0.36. 14. The eyewear of claim 1 , wherein the lens comprises a rare earth oxide. 15. The eyewear of claim 9 , wherein the rare earth oxide is disposed in the first lens element. 16. The eyewear of claim 1 , wherein the first lens element has a thickness greater than or equal to 0.03 mm and less than or equal to 4 mm, and wherein the second lens element has a thickness greater than or equal to 0.03 mm and less than or equal to 4 mm. 17. The eyewear of claim 1 , wherein the first lens element or the second lens element does not comprise the optical filter. 18. The eyewear of claim 1 , wherein at least one of the first lens element or the second lens element is configured to provide mechanical protection to the lens. 19. The eyewear of claim 1 , wherein at least one of the first lens element or the second lens element is clear. 20. The eyewear of claim 1 , wherein the plurality of uniform intensity light stimuli comprises a uniform intensity light stimulus positioned at each integer center wavelength within the spectral range. 21. The eyewear of claim 1 , wherein the first lens material comprises glass and the second lens material comprises glass, a polymeric material, a co-polymer, a doped material, or a combination thereof. 22. Eyewear comprising: a lens comprising: a first lens element comprising a first lens material; a second lens element comprising a second lens material; a polarizing film disposed between the first lens element and the second lens element; an adhesive layer disposed between at least one of: the first lens element and the polarizing film; or the polarizing film and the second lens element; and an optical filter disposed in the adhesive layer, wherein the optical filter has a spectral transmittance and an average visible light transmittance, and wherein the optical filter receives light and outputs filtered light; wherein the optical filter comprises at least one dye that increases an average chroma value of the filtered light relative to an average chroma value of a reference light that passes through a reference filter that has a uniform attenuation spectral transmittance equal to the average visible light transmittance of the optical filter, wherein chroma value is the C* coordinate of the CIE L*C*h* color space; wherein the average chroma value of the filtered light and the average chroma value of the reference light are determined by: calculating a filtered spectral light intensity profile for a plurality of uniform intensity light stimuli, wherein each of the plurality of uniform intensity light stimuli has a bandwidth of 30 nm, a center wavelength within a spectral range, and a spectral light intensity profile with uniform intensity within the bandwidth, wherein the filtered spectral light intensity profile is the spectral transmittance of the optical filter multiplied by the spectral light intensity profile, and wherein a reference spectral light intensity profile is the uniform attenuation spectral transmittance multiplied by the spectral light intensity profile; weighting each reference spectral light intensity profile and each filtered spectral light intensity profile by L, M, and S f