Adaptation Layer for Antireflective Designs on Lenses of Various Refractive Indexes

1 .- 14 . (canceled) 15 . An ophthalmic lens comprising a transparent substrate wherein at least one face of the substrate comprises an antireflective stack comprising: a layer Lmed comprising: a thickness of a three-quarter-wave layer for a design wavelength in a range of 450 nm-580 nm; a refractive index in a range of 1.5-1.70; and a refractive index different from the refractive index of substrate; at least one layer different from Lmed having a refractive index higher than 1.6; and at least one layer different from Lmed having a refractive index lower than 1.55. 16 . The ophthalmic lens of claim 15 , wherein the layer Lmed is in direct contact with the substrate. 17 . The ophthalmic lens of claim 15 , wherein the design wavelength is in the range of 480 nm-550 nm. 18 . The ophthalmic lens of claim 15 , wherein the difference between the refractive index of substrate and the refractive index of three-quarter-wave layer Lmed is larger than 0.01. 19 . The ophthalmic lens of claim 15 , wherein the substrate is organic. 20 . The ophthalmic lens of claim 15 , wherein the antireflective stack comprises a number of layers higher than or equal to 5 and lower than or equal to 9. 21 . The ophthalmic lens of claim 15 , wherein the antireflective stack comprises at least two layers having a refractive index higher than 1.6 and at least two layers having a refractive index lower than 1.55. 22 . The ophthalmic lens of claim 15 , wherein the mean reflection factor R m over a wavelength range 400 nm to 700 nm for the face of the substrate coated with an antireflective stack is lower or equal to 3% for an angle of incidence lower than or equal to 35°. 23 . The ophthalmic lens of claim 15 , wherein the mean light reflection factor R v over a wavelength range 380 nm to 780 nm for the face of the substrate coated with an antireflective stack is lower or equal to 2% for an angle of incidence lower than or equal to 35°. 24 . An antireflective stack suited for coating substrates for ophthalmic lenses comprising: a layer Lmed comprising: a thickness of a three-quarter-wave layer for a design wavelength in a range 450 nm-580 nm; a refractive index in a range of 1.5-1.70; and a refractive index different from the refractive index of substrate; at least one layer different from Lmed having a refractive index higher than 1.6; and at least one layer different from Lmed having a refractive index lower than 1.55. 25 . The antireflective stack of claim 24 , wherein the difference between the refractive index of the substrate to be coated and the refractive index of the layer Lmed is larger than 0.01. 26 . A collection of at least two ophthalmic lenses of claim 15 , wherein at least two ophthalmic lenses from the collection: differ in refractive index Δn by 0.035 or more; differ in reflected residual colors by ΔE, as measured by CIE Lab ΔE76; and have a ratio ΔE/Δn of lower than 50. 27 . A method of fabrication of spectacles comprising: selecting two substrates having a refractive index difference larger than 0.035; coating the substrates with an antireflective stack of claim 24 ; and mounting the coated substrates on a single pair of spectacles. 28 . Spectacles prepared by the method of claim 27 , wherein residual colors of the antireflective stack coated on the substrates having different refractive indices differ by less than 10.