Eyewear with variable optical characteristics

The following is claimed: 1. Eyewear comprising: an optical filter configured to switch between a first filter state having a first luminous transmittance and a user-selectable or sensor-selectable second filter state having a second luminous transmittance, wherein a difference between the first luminous transmittance and the second luminous transmittance is greater than or equal to about 5%, the optical filter comprising: an absorber having an absorbance spectral profile, the absorbance spectral profile comprising at least one absorbance peak in the visible spectrum, the at least one absorbance peak having a maximum absorbance value between about 540 nm and about 580 nm and a full width at 80% of the maximum absorbance value of greater than or equal to about 5 nm when the optical filter is in the first filter state. 2. The eyewear of claim 1 , wherein the first luminous transmittance has a value between about 7% and about 20%. 3. The eyewear of claim 1 , wherein the second luminous transmittance has a value between about 20% and about 70%. 4. The eyewear of claim 1 , wherein the optical filter is configured to switch between the first filter state and the second filter state when at least a portion of the optical filter receives an electrical signal provided by a user or provided by a user-controlled power supply. 5. The eyewear of claim 1 , wherein the optical filter comprises at least one of a photochromic material or an electrochromic material. 6. The eyewear of claim 1 , wherein the absorber comprises an organic dye. 7. The eyewear of claim 1 , wherein the absorber comprises an oxide. 8. The eyewear of claim 1 , wherein the optical filter includes an edge filter having an optical density of greater than or equal to about 2 at visible light wavelengths comprising wavelengths less than 410 nm and a bandwidth of less than or equal to about 80 nm and greater than or equal to about 30 nm. 9. The eyewear of claim 1 , wherein the maximum absorbance value is greater than or equal to about 0.5 and less than or equal to about 5.0. 10. The eyewear of claim 1 , wherein the full width of the at least one absorbance peak at 80% of the maximum absorbance value is less than or equal to about 50 nm. 11. The eyewear of claim 1 , wherein a full width of the at least one absorbance peak at 60% of the maximum absorbance value is between about 20 nm and about 30 nm. 12. The eyewear of claim 1 , wherein the optical filter comprises a third filter state having a third luminous transmittance. 13. The eyewear of claim 1 , further comprising a lens body, wherein the optical filter is at least partially attached to and/or integrated into the lens body, wherein the lens body comprises a polycarbonate material. 14. The eyewear of claim 13 , further comprising a frame including the lens body and a power supply connected to the frame, wherein the optical filter comprises an electrode of the optical filter electrically connected to the power supply. 15. The eyewear of claim 14 , further comprising a user interface disposed in the frame, the user interface configured to provide an electrical signal from the power supply to the optical filter. 16. The eyewear of claim 1 , wherein the optical filter comprises a first filter component and a second filter component, wherein the first filter component is a static attenuation filter having a luminous transmittance that is less than or equal to about 90%, and wherein the second filter component is a variable attenuation filter configured to switch among a plurality of states comprising a faded state and a darkened state, the optical filter being in the first filter state when the second filter component is in the darkened state. 17. The eyewear of claim 1 , wherein the absorbance spectral profile further comprises another full width at 80% of the maximum absorbance value when the optical filter is in the second filter state, and wherein the full width at 80% of the maximum absorbance value is substantially equal to the other full width at 80% of the maximum absorbance value. 18. Eyewear comprising: a first filter component including at least one of a photoelectrochromic material or an electrochromic material; and a second filter component comprising a first organic dye, wherein the first filter component is configured to switch between a faded state and a darkened state based on a signal received from a user-controlled and/or a sensor-controlled interface, wherein a change in a luminous transmittance of the first filter component as a result of switching between the faded state and the darkened state is greater than or equal to about 5%, and wherein the second filter component comprises a first absorbance peak having a maximum optical density in a wavelength range between about 540 nm and about 580 nm. 19. The eyewear of claim 18 , wherein the second filter component comprises a second absorbance peak having a maximum optical density in a wavelength range between about 440 nm and about 490 nm. 20. The eyewear of claim 19 , wherein the second filter component comprises a third absorbance peak having a maximum optical density in a wavelength range between about 640 nm and about 690 nm. 21. The eyewear of claim 19 , wherein the second absorbance peak has a bandwidth equal to a full width at 60% of the maximum optical density of the second absorbance peak, wherein the spectral bandwidth of the second absorbance peak is between about 10 nm and about 35 nm. 22. The eyewear of claim 18 , wherein the first absorbance peak has a spectral bandwidth equal to a full width at 60% of the maximum optical density of the first absorbance peak, wherein the spectral bandwidth of the first absorbance peak is between about 10 nm and about 35 nm. 23. The eyewear claim 18 , wherein the second filter component comprises at least a second organic dye. 24. The eyewear of claim 18 , wherein the first filter component has a luminous transmittance less than or equal to about 20% in the darkened state. 25. The eyewear of claim 18 , wherein the first filter component has a luminous transmittance greater than or equal to about 50% in the faded state. 26. The eyewear of claim 18 , further comprising a substantially rigid lens body, wherein the second filter component is part of the substantially rigid lens body. 27. The eyewear of claim 18 , wherein the first filter component is configured to switch between an additional state between the faded state and the darkened state based on a signal received from a user-controlled and/or a sensor-controlled interface. 28. The eyewear of claim 19 , wherein the change in the luminous transmittance of the first filter component as a result of switching between the faded state and the darkened state is greater than or equal to about 10%. 29. Eyewear comprising: an optical filter configured to switch between a first filter state having a first luminous transmittance and a user-selectable or sensor-selectable second filter state having a second luminous transmittance, wherein a difference between the first luminous transmittance and the second luminous transmittance is greater than or equal to about 5%, the optical filter comprising: an absorber having an absorbance spectral profile, the absorbance spectral profile comprising at least one absorbance peak in the visible spectrum, the at least one absorbance peak having a maximum a