Ophthalmic lens

The invention claimed is: 1. An ophthalmic lens with a front main face and a back main face, the ophthalmic lens comprising: a means for cutting off ultraviolet (UV) light arriving on the front main face of the ophthalmic lens; an antireflection coating, on the back main face of the ophthalmic lens, having a weighted average reflection factor in the UV lower than or equal to 7% for an angle of incidence of 30° and for an angle of incidence of 45°; and at least one means blocking at least partially the blue light in the wavelength range extending from 400 to 460nanometers, said blue-light blocking means being a blue-light blocking filter formed on at least one main face of the lens, wherein said blue-light blocking filter is an interference filter and has the following properties: a spectral reflectivity curve for an angle of incidence ranging from 0° to 15° having: i) a reflectivity maximum at a wavelength lower than 410 nanometers, and ii) a full width at half maximum (FWHM) higher than or equal to 70 nm; and the main face provided with the blue-light blocking filter has the ability to present, for an angle of incidence on said main face ranging from 0° to 15°, an average blue reflectance factor Rm,B within a wavelength range of from 420nanometers to 450 nanometers which is higher than or equal to 5%, and wherein the average luminous factor Rv on the main face of the ophthalmic lens comprising the filter is lower than or equal to 2.5%. 2. The ophthalmic lens of claim 1 , wherein the means for cutting off UV light arriving on the front main face cuts off 90% or more of the UV light. 3. The ophthalmic lens of claim 1 , wherein the means for cutting off UV light arriving on the front main face consists of a lens substrate, a lens substrate in which one or more UV absorbers are dispersed, a UV-absorbing coating placed on the front main face, a UV-reflecting coating placed on the front face or a combination of these means. 4. The ophthalmic lens of claim 1 , wherein the blue-light blocking means blocks from 5 to 50% of the blue light in the wavelength range from 400 to 460nanometers. 5. The ophthalmic lens of claim 1 , wherein at the blue-light blocking means blocks from 5to 50% of the blue light in the wavelength range from 420 to 450nanometers. 6. The ophthalmic lens of claim 1 , wherein said blue-light blocking filter provides the main face comprising said filter with the following property: for an angle of incidence θ′ ranging from 0° to 15° and for an angle of incidence θ′ ranging from 30° to 45°, a parameter Δ(θ,θ′) defined by the relation Δ(θ,θ′)=1−[ R θ′ (435 nm) / R θ (435 nm) ], so that this parameter Δ(θ,θ′) is higher than or equal to 0.5, where R θ (435 nm) represents the reflectivity value of the main face comprising said filter at a 435 nanometer-wavelength for the angle of incidence θ, and R θ′ (435 nm) represents the reflectivity value of the main face comprising said filter at a 435 nanometer-wavelength for the angle of incidence θ′. 7. The ophthalmic lens of claim 6 , wherein the angle of incidence θ=15° and the angle of incidence θ′=45°. 8. The ophthalmic lens of claim 1 , wherein the average light reflection factor (R v ) on each of the main faces of the ophthalmic lens is lower than or equal to 2.5%. 9. The ophthalmic lens of claim 8 , wherein the average light reflection factor (Rv) on each of the main faces of the ophthalmic lens is lower than or equal to 1.5%. 10. The ophthalmic lens of claim 1 , wherein the weighted average reflection factor in the UV of the antireflection coating on the back main face is lower than or equal to 6% for the angle of incidence of 30° and for the angle of incidence of 45°. 11. The ophthalmic lens of claim 10 , wherein the weighted average reflection factor in the UV of the antireflection coating on the back main face is lower than or equal to 5%. 12. The ophthalmic lens of claim 1 , wherein said blue-light blocking filter provides the main face comprising said filter with the following property: for an angle of incidence ranging from 0° to 15°, a parameter Δ spectral defined by the relation Δ spectral =1 −[R 0°-15° (480 nm)/ R 0°-15° (435 nm) ], so that this parameter Δ spectral is higher than or equal to 0.8, where R 0°-15° (480 nm)is the reflectivity value of the front main face at a 480 nanometer-wavelength for the relevant incidence, and R 0°-15° (435 nm) is the reflectivity value of the front main face at a 435 nanometer-wavelength for the relevant incidence. 13. The ophthalmic lens of claim 1 , wherein said full width at half maximum (FWHM) is higher than or equal to 80 nm. 14. The ophthalmic lens of claim 1 , wherein said full width at half maximum (FWHM) is lower than or equal to 150 nm. 15. The ophthalmic lens of claim 1 , wherein said reflectivity maximum is at a wavelength lower than or equal to 400 nanometers. 16. The ophthalmic lens of claim 1 , wherein said reflectivity maximum is at a wavelength lower than or equal to 390 nanometers. 17. The ophthalmic lens of claim 1 , wherein the parameter Δ(θ,θ′) is higher than or equal to 0.6. 18. The ophthalmic lens as claimed in claim 1 , wherein the reflectivity maximum of said blue-light blocking means is at a wavelength in the range of 350 nm to 400 nm. 19. The ophthalmic lens as claimed in claim 1 , wherein the average blue reflectance factor R m,B is higher than or equal to 10%. 20. The ophthalmic lens as claimed in claim 1 , wherein the blue light blocking filter is formed on the front main face of the ophthalmic lens. 21. An ophthalmic lens with a front main face and a back main face, said ophthalmic lens comprising: a means for cutting off ultraviolet (UV) light arriving on the front main face of the ophthalmic lens; an antireflection coating, on the back main face of the ophthalmic lens, having a weighted average reflection factor in the UV lower than or equal to 7% for an angle of incidence of 30° and for an angle of incidence of 45°; and at least one means blocking at least partially the blue light in the wavelength range extending from 400 to 460 nanometers, said blue-light blocking means being a blue-light blocking filter formed on at least one main face of the lens, wherein said blue-light blocking filter has the following properties: a spectral reflectivity curve for an angle of incidence ranging from 0° to 15° having: i) a reflectivity maximum at a wavelength in the range of 360 nm to 400 nm, and ii) a full width at half maximum (FWHM) higher than or equal to 70 nm; and the main face provided with the blue-light blocking filter has the ability to present, for an angle of incidence on said main face ranging from 0° to 15°, an average blue reflectance factor Rm,B within a wavelength range of from 420 nanometers to 450 nanometers which is higher than or equal to 5%. 22. An ophthalmic lens with a front main face and a back main face, said ophthalmic lens comprising: a means for cutting off ultraviolet (UV) light arriving on the front main face of the ophthalmic lens; an antireflection coating, on the back main face of the ophthalmic lens, having a weighted average reflection factor in the UV lower than or equal to 7% for an angle of incidence of 30° and for an angle of incidence of 45°; and at least one means blocking at least partially the blue light in the wavelength range extending from 400 to 460nanometers, said blue-light blocking means being a blue-light blocking filter formed on at least one main face