Optical article comprising an antireflective coating with a very low reflection in the visible and ultraviolet regions

The invention claimed is: 1. An ophthalmic lens comprising a transparent substrate with a front main face and with a rear main face, at least one of the main faces being coated with a multilayered antireflective coating comprising a stack of at least one high refractive index layer (HI) having a refractive index higher than or equal to 1.55 and at least one low refractive index layer (LI) having a refractive index lower than 1.55, wherein: said at least one high refractive index layer (HI) and said at least one low refractive index layer (LI) are adjacent, forming a bilayer; said bilayer has a physical thickness lower than or equal to 60 nm; said bilayer is, in the direction moving away from said transparent substrate, in second to last place in said multilayered antireflective coating; and wherein the antireflective coating has a ΔE76 for angles of incidence of 15° and 45° defined by the colorimetric CIE L*a*b* which is lower than or equal to 12″. 2. The ophthalmic lens of claim 1 , wherein said multilayered antireflective coating has a mean reflection factor RUV between 280 nm and 380 nm, lower than 5% for an angle of incidence in the range from 20° to 50°. 3. The ophthalmic lens of claim 1 , wherein said bilayer has a physical thickness lower than or equal to 30 nm. 4. The ophthalmic lens of claim 3 , wherein the high refractive index layer (HI) included in said bilayer has a physical thickness lower than or equal to 15 nm. 5. The ophthalmic lens of claim 1 , wherein the low refractive index layer (LI) included in said bilayer has a physical thickness lower than or equal to 30 nm, provided that the total physical thickness of the bilayer is lower than or equal to 60 nm. 6. The ophthalmic lens of claim 5 , wherein the low refractive index layer (LI) included in said bilayer has a physical thickness lower than or equal to 15 nm provided that the total physical thickness of the bilayer is lower than or equal to 60 nm. 7. The ophthalmic lens of claim 1 , wherein the high refractive index layer (HI) included in said bilayer is a conductive layer. 8. The ophthalmic lens of claim 7 , wherein said conductive layer comprises indium oxide, tin dioxide, zinc oxides or mixtures thereof. 9. The ophthalmic lens of claim 7 , wherein said conductive layer comprises Indium Tin Oxide In 2 O 3 /SnO. 10. The ophthalmic lens of claim 1 , wherein the multilayered antireflective coating comprises alternately high refractive index layers (HI) and low refractive index layers (LI) and has a number of layers lower than or equal to 10. 11. The ophthalmic lens of claim 10 , wherein the multilayered antireflective coating has a number of layers lower than or equal to 7. 12. The ophthalmic lens of claim 1 , wherein the outer layer which is the furthest layer from the substrate is a low refractive index layer. 13. The ophthalmic lens of claim 12 , wherein the outer layer is a monolayer and has a thickness at most 100 nm. 14. The ophthalmic lens of claim 12 , wherein the outer layer is a monolayer and has a thickness between 20 to 90 nm. 15. The ophthalmic lens of claim 10 , wherein the antireflective coating comprises, in the direction moving away from the substrate: one sub-layer having a physical thickness of from 100 to 300 nm; one high refractive index layer (HI) having a physical thickness of from 8 to 25 nm; one low refractive index layer (li) having a physical thickness of from 15 to 35 nm; one high refractive index layer (HI) which has a physical thickness higher than or equal to 75 nm; the low refractive index of the bilayer having a physical thickness lower or equal to 20 nm; the high refractive index of the bilayer having a physical thickness lower or equal to 20 nm; and the outer low refractive index layer having a physical thickness of from 55 to 95 nm. 16. The ophthalmic lens of claim 15 , wherein the antireflective coating comprises, in the direction moving away from the substrate: one sub-layer having a physical thickness of from 120 to 180 nm; one high refractive index layer (HI) having a physical thickness of from 10 to 20 nm; one low refractive index layer (li) having a physical thickness of from 20 to 30 nm; one high refractive index layer (HI) having a physical thickness of from 75 to 110 nm; the low refractive index layer (LI) having a physical thickness of from 4 to 12 nm; the high refractive index layer (HI) having a physical thickness of from 3 to 12 nm; and the outer low refractive index layer having a physical thickness of from 65 to 90 nm. 17. The ophthalmic lens of claim 10 , wherein the antireflective coating comprises, in the direction moving away from the substrate: one multilayered sub-layer comprising: i) one low refractive index layer (LI) having a physical thickness of from 15 to 80 nm; ii) one high refractive index layer (HI) having a physical thickness of from 5 to 50 nm; and iii) one main layer having a physical thickness of from 100 to 300 nm; one high refractive index layer (HI) having a physical thickness of from 8 to 25 nm; one low refractive index layer (li) having a physical thickness of from 15 to 35 nm; one high refractive index layer (HI) which has a physical thickness higher than or equal to 75 nm; the low refractive index of the bilayer having a physical thickness lower or equal to 20 nm; the high refractive index of the bilayer having a physical thickness lower or equal to 20 nm, comprising optionally an antistatic layer; and the outer low refractive index layer having a physical thickness of from 55 to 95 nm. 18. The ophthalmic lens of claim 17 , wherein the antireflective coating comprises, in the direction moving away from the substrate: one multilayered sub-layer comprising: i) one low refractive index layer (li) having a physical thickness of from 20 to 50 nm; ii) one high refractive index layer (HI) having a physical thickness of from 6 to 25 nm; iii) one main layer having a physical thickness of from 100 to 300 nm; one high refractive index layer (HI) having a physical thickness of from 8 to 25 nm; one low refractive index layer (li) having a physical thickness of from 15 to 35 nm; one high refractive index layer (HI) which has a physical thickness higher than or equal to 75 nm; the low refractive index of the bilayer having a physical thickness lower or equal to 15 nm; the high refractive index of the bilayer having a physical thickness lower or equal to 15 nm, which may comprise an antistatic layer; and the outer low refractive index layer having a physical thickness of from 55 to 95 nm. 19. The ophthalmic lens of claim 1 , wherein the rear main face and the front main face of the ophthalmic lens are coated with similar or different said multilayered antireflective coating. 20. The ophthalmic lens of claim 1 , wherein the antireflective coating has a ΔE76 for angles of incidence of 15° and 45° defined by the colorimetric CIE L*a*b* which is lower than or equal to 12.