Optical article with blue cut, high UV cut and high clarity

The invention claimed is: 1. A transparent optical article with enhanced ultraviolet and blue light blocking ability comprising: a selective filter at least partially blocking blue light in a wavelength range chosen within the 400-460 nm range; and a high-pass filter having its maximum cut in the UV light wavelength range and partially blocking blue light in the 400-500 nm range; wherein the optical article blocks at least 66% of light with a wavelength less than or equal to about 410 nm, at each wavelength in the wavelength range 350-410 nm; wherein the selective filter is an absorbing dye that has an absorption peak centered at a wavelength chosen within the 410-440 nm wavelength range and exhibits a full width at half maximum lower than or equal to 40 nm. 2. The transparent optical article of claim 1 , wherein the absorbing dye is a porphine, a porphyrin, a porphyrin complex or derivative. 3. The transparent optical article of claim 1 , wherein the optical article comprises a polymer substrate comprising said absorbing dye dispersed or dissolved within said polymer substrate, at a concentration ranging from 1 to 10 ppm. 4. The transparent optical article of claim 1 , wherein the high pass filter is a UV absorber. 5. The transparent optical article of claim 4 , wherein the UV absorber is a benzotriazole compound. 6. The transparent optical article of claim 5 , wherein the benzotriazole compound is 2-(5-chloro-2H-benzotriazole-2-yl)-6-(1, 1-dimethylethyl)-4-methyl phenol. 7. The transparent optical article of claim 4 , wherein the optical article comprises a polymer substrate and, dispersed or dissolved therein, said UV absorber at a concentration ranging from 0.1 to 2.0 weight %. 8. The transparent optical article of claim 1 , wherein the optical article has a BVC(B′) value of ≥15%. 9. The transparent optical article of claim 1 , wherein the optical article has a colorimetric coefficient b* as defined in the CIE (1976) L*a*b* international colorimetric system that is less than or equal to 5. 10. The transparent optical article of claim 1 , wherein the selective filter and high-pass filter reduce the through transmittance of light with a wavelength less than or equal to about 410 nm in a synergistic fashion. 11. A wafer for reducing through-transmittance of light with a wavelength less than or equal to about 410 nm to a substrate, comprising: a blend of a transparent polymer resin; a selective filter at least partially blocking blue light in a wavelength range chosen within the 400-460 nm range; and a high-pass filter having its maximum cut in the UV light wavelength range and partially blocking blue light in the 400-500 nm range; wherein the selective filter is an absorbing dye that has an absorption peak centered at a wavelength chosen within the 410-440 nm wavelength range and exhibits a full width at half maximum lower than or equal to 40 nm. 12. The wafer of claim 11 , wherein the wafer reduces through-transmittance of light with a wavelength less than or equal to about 408 nm to a substrate. 13. A process for protecting at least part of an eye of a user from phototoxic blue light, comprising the user obtaining and using an optical article of claim 1 . 14. A process of enhancing the blue-cut performance of an optical element resin comprising: blending a transparent polymer resin with a selective filter at least partially blocking blue light in a wavelength range chosen within the 400-460 nm range and a high-pass filter having its maximum cut in the UV light wavelength range; and partially blocking blue light in the 400-500 nm range by a process selected from the group consisting of dry blending, melt mixing, and solvent mixing; wherein the selective filter is an absorbing dye that has an absorption peak centered at a wavelength chosen within the 410-440 nm wavelength range and exhibits a full width at half maximum lower than or equal to 40 nm. 15. The transparent optical article of claim 1 , wherein the absorbing dye exhibits a full width at half maximum lower than or equal to 30 nm. 16. The transparent optical article of claim 1 , wherein the absorbing dye exhibits a full width at half maximum lower than 25 nm. 17. The transparent optical article of claim 1 , wherein the absorbing dye exhibits a full width at half maximum lower than 20 nm. 18. The transparent optical article of claim 1 , wherein the absorbing dye exhibits a full width at half maximum higher than or equal to 5 nm. 19. The transparent optical article of claim 1 , wherein the absorbing dye exhibits a full width at half maximum higher than or equal to 10 nm.